Circuit-breakers NZM1, 2, 3, 4 up to 2000 A - Moeller Electric Parts
Circuit-breakers NZM1, 2, 3, 4 up to 2000 A - Moeller Electric Parts
Circuit-breakers NZM1, 2, 3, 4 up to 2000 A - Moeller Electric Parts
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For <strong>Moeller</strong> <strong>Electric</strong> Sales and S<strong>up</strong>port call KMparts.com (866) 595-9616<br />
10/132<br />
Technical data<br />
Effective power loss<br />
Technical data<br />
Effective power loss<br />
10/133<br />
<strong>Circuit</strong>-<strong>breakers</strong>, switch-disconnec<strong>to</strong>rs<br />
<strong>NZM1</strong>, NZM2, NS…, PN…, N…<br />
<strong>Moeller</strong> HPL0211-2007/2008<br />
http://catalog.moeller.net<br />
http://catalog.moeller.net<br />
<strong>Moeller</strong> HPL0211-2007/2008<br />
<strong>NZM1</strong>, NZM2, NS…, PN…, N…<br />
NZM <strong>up</strong> <strong>to</strong> 250 A with thermomagnetic release (3- and 4-pole)<br />
Fixed mounting<br />
Fixed mounting<br />
<strong>NZM1</strong>- NS1- N1-, PN1- NZM2- NS2- N2-, PN2-<br />
A...(-NA) M... AF...-NA S...-CNA ...-NA A...(-NA) M... AF...-NA S...-CNA ...-NA<br />
I n [A] P R P R P R P R P R P R P R P R P R P R P R P R<br />
[W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm] [W] [μOhm]<br />
1.2 – – – – – – 1.2 413000 – – – – – – – – – – – – – – – –<br />
1.6 – – – – – – – – – – – – – – – – – – 6.2 750000 – – – –<br />
2 – – – – – – 0.5 66000 – – – – – – – – – – – – – – – –<br />
2.4 – – – – – – – – – – – – – – – – – – 8.4 450000 – – – –<br />
3 – – – – – – 1.1 66000 – – – – – – – – – – – – – – – –<br />
5 – – – – – – 0.4 9180 – – – – – – – – – – 0.2 4600 – – – –<br />
8 – – – – – – 1 9180 – – – – – – – – – – 0.5 4600 – – – –<br />
12 – – – – – – 0.5 1670 – – – – – – – – – – 0.4 1200 – – – –<br />
15 – – – – 5.5 8180 – – – – – – – – – – 3 4250 – – – – – –<br />
18 – – – – – – 1.3 1670 – – – – – – – – – – 1 1200 – – – –<br />
20 9.8 8180 – – 9.8 8180 – – – – – – 5.1 4250 5.1 4250 5.1 4250 – – – – – –<br />
25 8.8 4680 – – 8.8 4680 – – – – – – 8 4250 8 4250 6 3140 – – – – – –<br />
26 – – – – – – 2 1050 – – – – – – – – – – 0.5 780 – – – –<br />
30 – – – – 8.2 3030 – – – – – – – – – – 9 3140 – – – – – –<br />
32 9.1 3030 – – – – – – – – – – 10 3140 10 3140 – – – – – – – –<br />
33 – – – – – – 3.2 1050 – – – – – – – – – – 0.9 780 – – – –<br />
35 – – – – 8.2 2220 – – – – – – – – – – 11 2800 – – – – – –<br />
40 11 2220 13.5 2810 11 2220 2.7 562 – – – – 13 2800 13 2800 13 2800 1.5 317 – – – –<br />
45 – – – – 10.7 1760 – – – – – – – – – – 15 2270 – – – – – –<br />
50 13.5 1760 15 1880 13.5 1760 4.2 562 – – – – 18 2270 18 2270 18 2270 2.5 317 – – – –<br />
60 – – – – 12.9 1190 – – – – – – – – – – 19 1700 – – – – – –<br />
63 14 1190 16.7 1250 – – 6.7 562 6.7 562 6 380 20 1700 20 1700 – – 4 317 – – – –<br />
70 – – – – 12.5 850 – – – – – – – – – – 17 1070 – – – – – –<br />
80 15.5 850 21.1 1085 15.5 850 10.8 562 – – – – 22 1070 22 1070 22 1070 6 317 – – – –<br />
90 – – – – 17.7 730 – – – – – – – – – – 23 855 – – – – – –<br />
100 24 730 25 795 24 730 16.9 562 16.9 562 15 380 28 855 28 855 28 855 10 317 – – – –<br />
110 – – – – 20.7 570 – – – – – – – – – – 22 589 – – – – – –<br />
125 38 570 – – 38 570 – – 26.3 562 24 380 29 589 29 589 29 589 15 317 – – – –<br />
150 – – – – – – – – – – – – – – – – 35 427 – – – – – –<br />
160 50 460 – – – – – – – – 38 380 40 427 40 427 – – 25 317 25 317 19.7 256<br />
175 – – – – – – – – – – – – – – – – 37 332 – – – – – –<br />
200 – – – – – – – – – – – – 48 332 48 332 48 332 40 317 40 317 30.7 256<br />
225 – – – – – – – – – – – – – – – – 46 310 – – – – – –<br />
250 – – – – – – – – – – – – 57 310 – – 57 310 59.4 317 59.4 317 48 256<br />
<strong>Circuit</strong>-<strong>breakers</strong>, switch-disconnec<strong>to</strong>rs<br />
Note:<br />
The values stated in the table apply for 3- and 4-pole fixed mounted devices with an equal load distribution.<br />
On 4-pole devices the current in the N-conduc<strong>to</strong>r is equal <strong>to</strong> zero.<br />
The <strong>to</strong>tal resistive load is the measured value for a 3-pole or a 4-pole switch.<br />
The <strong>to</strong>tal heat dissipation is the value measured at I n , 50/60Hz for a 3-pole or 4-pole switch.<br />
The heat dissipation can be calculated with the formula: P = 3 x R x I²<br />
NZM <strong>up</strong> <strong>to</strong> 1600 A with electronic release (3- and 4-pole)<br />
Fixed mounting<br />
S<strong>up</strong>plementary Fixed mounting<br />
S<strong>up</strong>plementary Fixed mounting<br />
NZM2- N2, PN2 Plug-in units NZM3-NS3 N3-, PN3- Withdrawable NZM4-NS4 N4-<br />
units<br />
S<strong>up</strong>plemementary<br />
Withdrawable<br />
units<br />
R R R R R R R R R<br />
[μOhm] [μOhm] [μOhm] [μOhm] [μOhm] [μOhm] [μOhm] [μOhm] [μOhm]<br />
275 256 100 100 90 70 37 37 10<br />
Note:<br />
The values stated in the table apply for 3- and 4-pole devices with an equal load distribution.<br />
On 4-pole devices the current in the N-conduc<strong>to</strong>r is equal <strong>to</strong> zero.<br />
The <strong>to</strong>tal resistive load is the measured value for a 3-pole or a 4-pole switch<br />
(independent of I n and the type of release).<br />
The <strong>to</strong>tal resistive load for a plug-in or withdrawable switch results from:<br />
the resistive value for fixed mounted + resistive value for plug-in or withdrawable.<br />
The heat dissipation can be calculated with the formula: P = 3 x R x I²