Page 184 - Sace Emax 2 Catalogue

P. 184

35 1 10 2 35 3 30 4 35 1 10 2 35 1 35 3 10 2 30 4 35 3 30 4
Ø 13 12 Ø 13 12 10 Ø 13 12 Ø 13 Ø 13 12 12 10 Ø 13 12 10
8/26 33 45 SACE EMAX 2 LOW VOLTAGE AIR CIRCUIT-BREAKERS 33 45 33 45 33 45 33 45
33
45
= 60 = = 50 = = 60 = = 60 = = 60 = = 50 = = 60 = = 60 = = 50 = = 60 = = 60 = = 60 =
1 2 2 3 4 1 2 2 1 2 3 4 2 3 4
— 14 1 14 1 2 14 3 4 3 4
15 14 90 90 Y 90 15 14 15 14 90 90 Y 90 90 90 Y 90
2
Y L2 L3 N L1 L2 Y L3 N L1 L2 Y L3
With 4drawable circuit-breaker - E2.2 4 47 2 90 90 Y 90 47 2
L1
N
4
47
4
90
90
90
90
90
2
2
2
90
2
Y
Y
430 14 4 430 4 430 14 4 430 14 4 430 4 430
X X 114 X X X 114 X 114 X X 114 X X 114 X X 114
Y Y Y
N L1 L2 L3 N L1 L2 L3 N L1 L2 L3
35 10 35 10 35 3530 30
123 331 (III) / 421(IV) 123 Ø 13 123 12 Ø 13 331 (III) / 421(IV) 12 123 Ø 13 123 12 331 (III) / Ø 421(IV) 12 10 123
13 10
1 3 Rear orientable terminals 165.5 165.5
165.5
33
13 5 90 90 90 13 5 13 1 3 45 90 90 90 33 45 5 1 3 5 90 33 45 90 90 33 45 5
34 74.5 Y 34 5 74.5 34 74.5 Y Y
14
6
6 14 E2.2 B/N/S/H 2000A 6 14 6 E2.2 N/S/H 2500A 6
6
1 2 = 60 = = 50 = = 3 60 = = 50 = 4 = 60 = == 60 == = 60 =
60
Y 1 2 1 2 Y 3 4 3 4 Y
N L1 L2 L3 N 383 2 L1 L2 L3 2 N L1 L2 L3
383 22 383 22 90 22 90 90 90 90 90
14 407 (IV) 14 15 14 15 14 1414 407 (IV) Y 14 Y 407 (IV)
22 22 22
317 (III) 317 (III) 317 (III)
7 158.5 7 7 158.5 158.5
13 Y 13 Y N L1 L2 Y L3 N 13 L1 Y L2 L3 Y
12 12 4 4 12 90 47 47
35 10 2 35 90 2 90 30 90 90 90 2 2
10 10 Ø 13 12 10 10 Ø 13 14 12 4 10 10 Y 14 10 Y 4 4
4
425 430 430 425 430 425 430
351 X X 124 X X 114 X X 351 X 33 45 X X 124 X X X X 114 351 X X X 33 114 45 X X 124 X X 114 X X X 114 X X X 114
114
8 8 8 N L1 L2 Y L3 N L1 Y L2 L3
181.5 181.5 181.5
50
118 60=
Ø 5.45 118 123 = 60 = Ø = 5.45 = 118 123 123 = 60 = Ø 5.45 123 331 (III) / 421(IV) = 123 331 (III) / 421(IV) 123 123
34 1 2 34 3 4 34
1 3
Y 2 1 3 Y 165.5 165.5 Y
13 13
5
10 1 3 360 (IV) 11 10 34 74.5 1 90 90 34 90 5 3 10 74.5 360 (IV)5 90 90 1 90 11 3 90 90 90 360 (IV) 11 5
15
75 150 270 (III) 14 75 150 14 Y 6 75 150 14 270 (III) 6 Y 14 Y 270 (III) 6
6
351 5 6 135 351 5 6 351 135 5 6 135
366 50 366 366 50 50
Y Y Y Y Y
Y N L1 L2 L3 N L1 L2 L3
8 MESSA A TERRA 1 8 MESSA A TERRA 2 N L1 L2 22 L3 383 8 3 MESSA A TERRA 4
383
22
75 (III) 1 75 (III) 75 2 3 75 (III) 4 47 75 (III) 75 75 (III) 75 (III) 75
407 (IV)
Ø...MAX 9 = 1 2 4 14 2 90 9 90 90 14 22 3 Ø...MAX 2 9 22 = 4 407 (IV) =
Ø...MAX
Ø 10 4 14 Y Ø 10 4 317 (III) Ø 10 317 (III)
10 150 7 10 7 10 158.5 150 158.5 150
=
=
=
E2.2 B/N/S/H 2000A X 114 430 170(IV) 13 X 114 80 (IV) 13 170(IV) Y 80 (IV)
430 Y
80 (IV)
170(IV)
X
X
Y N L1 Y L2 L3 12 Y 12 Y
123 10 10 10 123 10
331 (III) / 421(IV)
35 10 165.5 35 30 1 425 2 425 3 4
11
13 35 Ø 13 10 5 12 351 X 1 3 35 90 90 351 X X 90 124 Ø X 13 X 304 12 X X 124 X 5 10 X 114 X X X
12
Ø 13 34 74.5 35 6 33 14 10 Ø 13 8 Y 12 35 10 8 33 6 30 181.5 181.5
Ø 13 12 45 118 Ø 13 5.45 123 12 118 45 10 123
33 Ø 5.45 33 Ø
45 34 45 34
33 45 Y 33 45
= 60 = 22 = 50 = N L1 L2 L3 = 60 = = Y 60 = Y
383
10
= 60 = 1 2 = 50 = 10 = 60 = 3 41 = 3 60 = 1 360 (IV) 3 11 360 (IV) 11
1 2 14 = 60 = 1 3 4 2 = 150 2 407 (IV) 75 150 = 6 3 270 (III) 6 4 270 (III)
75
=
60 =
22 50=
1 2 351 90 90 317 (III) 5 351 60= 5 135 135
90
15 14 7 2 90 14 366 3 4 158.5 366 Y 50 Y 50
Y
15 14 14 90 90 Y 2 13 8 Y 8 35 10 35 30
90
90
15 14 14 12 90MESSA A TERRA MESSA A TERRA 75 (III) 13Ø 75 (III) 12 75 (III) 75 (III) 75 Ø 13 12 10
Y
75
N L1 Ø...MAX Y L2 L3 9 Ø...MAX 9 = =
10 N L1 10 L2 Y L3 Ø 10 Ø 10 33 150 45 150 33 45
2 4 N 90 L1 90 Y L2 90 L3 10 47 425 47 10 2 = =
351 X 2 4 X 1 124 4 X 90 90 X 114 90 14 X 2 Y X 2 3 170(IV) 4 4 80 (IV 170(IV) 80 (IV)
)
35
4 8 14 2 Y 4 10 90 90 90 35 4 47 2 30 Y = 60 = = Y 50 = = 60 = = 60 =
1 2 X 3 Ø 13 X 114 4 12 430 4 123 14 Y Ø 13 181.5 X 12 1 2 114 10 4 430 3 4
X
430 Ø 5.45 118 Y 430
X X 114 34 Y N L1 X L2 L3 X 114 2
E2.2 N/S/H 2500A X 114 430 45 L1 L2 L3 Y 15 X 14 45 X 114 430 90 90 Y 90
33
33
N
X
Y
L1
10 123 1 123 3 N 331 (III) / L2 421(IV) L3 123 11 123 14
360 (IV)
75 150 = 60 = 331 (III) / 421(IV) 50 = 270 (III) 165.5 = 60 = = 60 =
=
13 1 2 123 5 5 1 6 165.5 3 331 (III) / 421(IV) 90 135 123 5
351
90
90
3 4
13 34 5 74.5 366 1 3 90 90 90 Y Y 165.5 50 N L1 Y L2 L3
2 1
35
14 10
34 74.5 13 14 6 Y 1 3 90 90 90 90 90 90 2 535 6 30 3 4
6
34 15 14 74.5 8 Ø 13 MESSA A TERRA 5 12 Ø 13 6 12 5 10 4 90 90 90 47
14
35 10 35 30 6 14 75 (III) Y Y Y 75 (III) 75 6 2 2
Ø 13 1 12 1 Ø 13 12 Ø...MAX 10 3 22 3 9 33 45 Y N L1 L2 L3 33 45 4 14 Y 4
383 Ø 10 =
N L1 L2 L3
Y Y
— 33 45 383 22 14 33 45 10 22 N N L1 L1 407 (IV) L3 L3 X 150 X 430 X X 430
L2
L2
=
383
Key 14 7 1 2 22 = 60 = 22 1 407 (IV) 50= = 170(IV) 2 90 (IV) 3 317 (III) 80 (IV) = 60 = 3 47 = 60 = 4 114 N L1 Y L2 L3 114
317 (III)4
1 Horizontal terminals 7 14 2 22 13 90 407 Y4 90 158.5 2
Y
1 2 = 60 = 2000A = 50 = 3 4 = 60 = 7 13 = 60 = 4 Y 14 2 158.5 90 90 317 Y (III) 90 158.5 4 123 331 (III) / 421(IV) 123
2
2
2 Vertical terminals 2 X 15 14 12 X 4 114 4 430 35 13 12 Y Y 10 X X 114 430 35 30 165.5
14
15 14 = 60 = = 60 = 2000A 10 10 14 90 90 Y 90 35 35 10 10 10 Ø 13 10 12 12 N L1 L2 Y L3 13 Ø 13 12 5 10 1 3 90 90 90 5
1 1 3 Horizontal terminals 10 10 Y 34 74.5 Y
35 35 2 2 123 10 N L1 L2 L3 425 123 6 14 6
2500A 351 X X 10 124 X X 114 X 33 331 (III) / 421(IV) X 33 45
45
425
15
4
4 15 Vertical terminals 351 N X L1 Y L2 L3 X 124 X 15 15 8 X 114 35 X X 2 1 3 10 X 90 90 90 165.5 181.5 35 425 47 2 30 Y
2500A 55 67 67 8 13 351 X 74.5 Ø 13Ø 55 5.45 55 67 X 124 5 12 118 4 X 114 60 = 14 X 181.5 90 90 Y 90 Ø 13 X 12 5 10 4 N L1 L2 L3
55
123
47 67
34
2
5 Tightening torque 4 90 90 90 Ø 5.45 118 8 123 2 34 6 = 14 Y 50= = 181.5 33 4 383 6 = 60 = 22 = 60 =
Y
34
33
4
118
2000A 8.6Nm 14 E2.2 N/S/H 2500A LH ØR/LVR 4 X 1 2 430 45 123 Y X 3 14 45 X 114 430 407 (IV)
5.45
X
114
Y
60 60 10 34 1 Y 3 360 (IV) 2 L3 11 22 317 (III)
6 Tightening torque 430 N L1 Y L2
430
90
L2
X 100 100 X 2500A 8.6Nm 45 = = 45 = 10 150 Y = 75 60 = = 1 60 = 150 351 15 X 3 114 = 14 45= 22 5 == 45 = 360 (IV) 6 50 = N L1 270 Y 11 (III) L3 = 60 = 90 Y 90 7 = 60 = 158.5
=
114
X 383
=
60
=
3
N 75 L1 L2 L3 10 1 366 2 6 1 123 270 (III) 331 (III) / 360 (IV) 14 135 50 11 123 13 Y
421(IV)
7 Door position - 351 75 5 14 135 407 (IV) 3 Y4
150
3 3 = 60 = = 60 = 30 30 366 5 30 30 22 6 Y 2 1 50 317 (III)
270 (III) 165.5
123
123
Ref. page 7/20 331 (III) / 421(IV) 4 13 35 35 351 8 MESSA A TERRA 1 3 135 2 3 12 4
90
90
35 35 8 Earthing device 10 10 8 165.5 MESSA A TERRA14 7 366 5 10 10 14 75 (III) 90 90 Y 90 90 158.5 75 (III) N 50 L1 75 L2 Y L3 5
15
34
74.5
Ø...MAX
13 12 Mobile part 1 3 90 90 90 8 15 15 MESSA A TERRA 6 9 75 (III) 14 13 75 (III) 75 Y Y Y = 6 10 10
15
15
5
5
34 74.5 Ø...MAX 9 12 Ø 10 75 (III) 4 75 (III) 90 75 150 90 90 47
13 Fixed part 67 14 Y 55 55 67 6 67 Ø 10 10 2 = Y Y 351 X X 2 X 425
55
55
6
67
Ø...MAX
14 Segregation 10 383 10 22 9 10 Ø 170(IV) N N L1 L1 150 L2 L2 14 L3 L3 80 (IV) = = X Y 124 X 4 114 X
4 10
=
(where envisaged) N L1 L2 Y L3 170(IV) 10 4 80 (IV) 430 90 90 (IV) Y 90 425 = 150 47 8 2 430 181.5
X
383 6015 Distance from 351 X 14 X X 124 4 X 2 X 22 Y 114 X 14 X 114 (IV) 407 317 Y (III) 80 (IV) Y Ø 5.45 X 118 X 114 123
22
60
170
4
14 100 100 connected for testing 407 (IV) = 60 = = 60 7 = 8 = 60 = = 60 = Y 158.5 181.5 N L1 L2 L3 34
60
= =
60 =
=
to isolated 22 317 (III) Ø 5.45 118 430 123 13 123 Y 10 430 35 123 30 Y
35
7 130 130 158.5 X 130 130 X 34 114 12 N L1 L2 Y L3 331 (III) / X 421(IV) X Ø 13 114 12 1 10 3 360 (IV) 11
10
2 13 42 4 Y Y Y 1 3 Ø 13 12 Y 1 3 75 165.5 351 5 6 270 (III)
150
1 3
90
10
12 10 75 150 13 34 74.5 1 123 10 3 5 33 331 (III) / 360 (IV) 90 11 90 366 123 33 45 5 Y 135 50
421(IV)
45
14
135
10 10 III III Y 13 351 X 351 X 5 124 X X 6 114 1 3 6 270 (III) 165.5 X 425 50 Y MESSA A TERRA 6
Y
X
L1 L1 L2 34 L2 L3 L3 74.5 366 8 5 = 60 = 90 90 Y Y 50= 90 = 8 5 = 60 = = 60 = 75 (III) 75 (III) 75
6
Y
351 X X 124 X X 114 X X 425 8 MESSA A TERRA1 2 14 181.5 N L1 L2 3 4 L3 6 Ø...MAX 9
8 130 130 90 90 130 181.5 130 Ø 5.45 Ø...MAX 34 118 383 123 22 75 (III) Y 2 75 (III) 75 Ø 10 = 150
90
Ø 5.45 118 123 2 42 4 Y Y 383 15 14 22 14 9 Ø 10 N L1 L2 Y L3 90 = 407 (IV) 90 10 =
22 14
34 10 1 1 3 3 1 10 3 360 (IV) 150 11 Y 170(IV) 80 (IV)
317 (III)
Y 75 14 7 407 (IV) = 158.5 Y
150
270 (III)
351
Y 13
10 1 3 360 (IV) 11 5 22 6 170(IV) 317 (III) 135 80 (IV) Y
75 150 IV IV 270 (III) Y Y 7 366 Y 158.5 N 50 Y
351 5 6 N N L1 L1 135L2 L2 L3 L3 13 Y 12 L1 L2 L3
366 50 8 MESSA A TERRA
Y 12 2 75 (III) 4 75 (III) 90 75 90 90 47 2
8 MESSA A TERRA 10 10 75 (III) 75 (III) 75 Ø...MAX 10 9 10 10 Ø 4 10 10 14 = Y 4
9 9 10 10 Ø...MAX 9 = 351 X 10 X 124 X 430 X 114 X 425 = 150 X 425 430
Ø 10 351 X X X 124 X X 114 X X 114 (IV) X X X 114
10 150 8 8 170 Y 80 (IV) N L1 L2 Y L3 181.5
=
170(IV) 80 (IV) Ø 5.45 118 Ø 5.45 123 118 123 181.5
Y 34 123 331 (III) / 421(IV) 123
34 Y
Y 165.5
3 1 3
360 (IV)
10 13 10 1 3 1 5 360 (IV) 90 11 90 11 5
90
75 150 34 75 74.5 150 270 (III) 270 (III)
Y
614
351 5 351 6 5 6 135 135 6
366 366 50 50
Y Y
8 MESSA A TERRA 8 MESSA A TERRA N L1 L2 Y L3
383 22 75 (III) 75 (III) 75 (III) 75 75 (III) 75
Ø...MAX 9 Ø...MAX
14 Ø 10 9 Ø 10 = 407 (IV) =
10 22 150 317 (III) 150
=
7 10 158.5 =
170(IV) 80 (IV)
Y 13 170(IV) Y 80 (IV)
Y
12
10 10
425
351 X X 124 X X 114 X X
8
181.5
Ø 5.45 118 123
34
Y
10 1 3 360 (IV) 11
75 150 270 (III)
351 5 6 135
366 50
Y
8 MESSA A TERRA
75 (III) 75 (III) 75
Ø...MAX 9
Ø 10 =
10 150
=
170(IV) 80 (IV)
Y

179 180 181 182 183 184 185 186 187 188 189