Bticino 028168 Manuel utilisateur

PDF
ドキュメント
Unit&eacute; de Protection
R&eacute;f. 0 281 64/65/66/67/68
Juin 17
LE08438AB
Table des mati&egrave;res
1. Identification et r&eacute;glages par d&eacute;faut . . . . . . 4
2. R&eacute;glage des niveaux de protection . . . . . . 6
3. Signalement de l'&eacute;tat de l'unit&eacute; de protection . . . 9
4. Bouton de Test . . . . . . . . . . . . . . . . . . . . . . . 10
5. Visualisation et utilisation des menus . . . . 11
6. Page par d&eacute;faut . . . . . . . . . . . . . . . . . . . . . . 12
7. Visualisation des r&eacute;glages des courants . . . . . 14
8. Pages menu . . . . . . . . . . . . . . . . . . . . . . . . . 15
9.Accessoires . . . . . . . . . . . . . . . . . . . . . . . . . . 16
10. S&eacute;lectivit&eacute; logique . . . . . . . . . . . . . . . . . . . . 19
11. Navigation dans les menus . . . . . . . . . . . . . 21
12. Structure des menus . . . . . . . . . . . . . . . . . . 26
Version FW: P1611, TXXH GLXX DMX3
3
Unit&eacute; de Protection
1. Identification et r&eacute;glages par d&eacute;faut
0 281 64
TYPE LCD AVEC
PROTECTION LI
r&eacute;glages par d&eacute;faut
Ii=Icw;
Ir=(0.9+0.1) xIn;
Isd=10 x Ir fixe;
tsd=0.1s fixe;
tr=5s (MEM=OFF);
N=100%;
MAN
AUT
0 281 68
t
t
OK
C
OK
li
4
3
2
6 8 10
12
15
lcw
lsd
2.5
2
1.5
x ln
6
8
10
x lr
lr
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
ON
xlr
l&gt;.90
l&gt;1.05
MAN
AUT
MAN
4
3
2
x ln
ON
xlr
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
6 8 10
12
15
lcw
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
2.5
2
1.5
3 4 5
x ln
0.2
0.1
6 8 10
12
15
lcw
2.5
2
1.5
ON
xlr
MAN
3 4 5
6
8
10
x lr
lr
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
ON
xlr
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
tsd l2t=k@12lr
1 1 0.5
0.2
0.1
0.5
0.2
0.1
tr
x lr
s
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
N
100%
50%
OFF
AUT
0 281 66
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
0.5
0.2
0.1
li
lsd
4
3
2
6 8 10
12
15
lcw
tg
2.5
2
1.5
1 1 0.5
3 4 5
x ln
s
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
0.5
0.2
0.1
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
AUT
lsd
tsd l2t=k@12lr
1 1 0.5
0.2
0.1
6
8
10
lr
l&gt;.90
l&gt;1.05
x ln
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
lsd
4
3
2
s
tr
test
4
3
2
lr
li
1 1 0.5
test
0 281 65
li
6 8 10
12
15
lcw
0.5
0.2
0.1
N
100%
test
li
0.5
0.2
0.1
tg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
50%
OFF
0 281 64
0 281 67
TYPE BASIC
PROTECTION LSI
r&eacute;glages par d&eacute;faut
Ii=Icw; Isd=10 x Ir;
tsd=0.1s (t=const);
Ir=(0.9+0.1) xIn;
tr=5s (MEM=OFF);
N=100%;
tsd l t=k@12lr
1 1 0.5
0.2
0.1
2
3 4 5
C
lg
test
0 281 66
TYPE LCD AVEC
PROTECTION LSIg
r&eacute;glages par d&eacute;faut
Ig=0.2&times;In
tg=0.1 @ t=const
li=Icw;
Isd=10 x Ir;
tsd=0.1s (t=const);
Ir=(0.9+0.1) xIn;
tr=5s (MEM=OFF);
N=100%;
4
MAN
0 281 67
0 281 65
TYPE LCD AVEC
PROTECTION LSI
r&eacute;glages par d&eacute;faut
Ii=Icw;
Isd=10 x Ir;
tsd=0.1s (t=const);
Ir=(0.9+0.1) xIn;
tr=5s (MEM=OFF);
N=100%;
0 281 68
TYPE BASIC AVEC
PROTECTION LSIg
r&eacute;glages par d&eacute;faut
Ig=0.2&times;In
tg=0.1 @ t=const
li=Icw;
Isd=10 Ir;
tsd=0.1s (t=const);
Ir=(0.9+0.1) xIn;
tr=5s (MEM=OFF);
N=100%;
MEM OFF=
M&eacute;moire thermique d&eacute;sactiv&eacute;e
AUT
test
0.2
0.1
6
8
10
x lr
lr
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
ON
xlr
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
tsd l2t=k@12lr
1 1 0.5
0.2
0.1
0.5
0.2
0.1
tr
s
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
Unit&eacute; de Protection
S&Eacute;LECTEUR RESET
MAN-AUT
MAN
AUT
0 281 66
&Eacute;CRAN LCD
OK
VOYANTS INDICATEURS
DE D&Eacute;CLENCHEMENT
PROTECTION CONTRE
LES D&Eacute;FAULTS DE TERRE
C
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
0.5
0.2
0.1
li
lsd
4
3
2
6 8 10
12
15
lcw
tg
2.5
2
1.5
1 1 0.5
3 4 5
x ln
6
8
10
x lr
lr
VOYANT DE SIGNALISATION
DE L'ETAT DE L'UNIT&Eacute;
DE PROTECTION
test
0.2
0.1
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
ON
xlr
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
s
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
BOUTONS DE
NAVIGATION MENU
BOUTON TEST
D&Eacute;CLENCHEMENT
PROTECTION
MAGN&Eacute;TIQUE
INSTANTAN&Eacute;E
(COURTE DUR&Eacute;E)
PROTECTION
THERMIQUE
(LONGUE DUR&Eacute;E)
USB
PROTECTION
DU NEUTRE
5
Unit&eacute; de Protection
2. R&eacute;glage des niveaux de protection
Le r&eacute;glage des niveaux de protection s’effectue &agrave; l’aide de commutateurs rotatifs. Effectuer le r&eacute;glage
&agrave; l’aide d’un tournevis &agrave; t&ecirc;te plate.
6
Unit&eacute; de Protection
Protection contre les d&eacute;faults
de terre (uniquement pour
r&eacute;f. 0 281 66 et 0 281 68)
R&eacute;glage du courant (9 paliers)
Ig=0,2-0,3-0,4-0,5-0,6-0,7-0,8-1
&times;In-OFF
Temporisation de la protection de
terre (@12&times;Ig) (4+4 paliers)
tg=0.1-0.2-0.5-1s(t=const)
tg=1-0.5-0.2-0.1s(I2t=const)
0 281 66
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
tg
0.5
0.2
0.1
lg
MEM OFF = m&eacute;moire thermique Off
MEM ON = m&eacute;moire thermique On
OK
C
0 281 66
OK
test
tsd l2t=k@12lr
C
1 1 66
0.5
0 281
0.5
0.2
OK
0.1
0.2
0.1
test
s
tsd l2t=k@12lr
1 1 0.5
tr MEM-OFF
0.5
0.2
30 20 0.1
0.2 30
20
10
0.1
test
10
5
s
5 2
tsd
l t=k@12lr
@6I
r s
1 0.5
tr 1 MEM-OFF
0.530 30 200.2
0.1
20
0.2
10
10
5
0.1
tsd
5 l2t=k@12lr
s
@6I
r
1
1
0.5 s
0.5
0.2
tr MEM-OFF
0.2 30 30 20 0.1
20
10
0.1
10
s5
5
@6Ir s
tr
MEM-OFF
test
30 30 20
20
10
10
5
5
@6Ir s
test
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
test
s
tsd l2t=k@12lr
1 1 0.5
tr MEM-OFF
0.5
0.2
30 20 0.1
0.2 30
20
10
0.1
test
10
5
s
5 2
tsd
l t=k@12lr
@6I
r s
1 0.5
tr 1 MEM-OFF
0.530 30 200.2
0.1
20
0.2
10
10
5
0.1
tsd
5 l2t=k@12lr
s
r s
1 0.5
1 @6I
0.5
0.2
tr MEM-OFF
0.2 30 30 20 0.1
20
10
0.1
10
s5
5
@6Ir s
tr MEM-OFF
30 30 20
test
20
10
10
5
5
@6Ir s
C
0 281 66
OK
C
0 281 66
C
0 281 66
OK
C
0 281 66
OK
C
0 281 66
OK
* &quot;Seuil d intervention ultime
non r&eacute;glable=lsf=Icw@415V&quot;
C
0 281 66
OK
Si Ii &lt; Isd, le r&eacute;glage instantan&eacute;
pr&eacute;vaut sur le r&eacute;glage magn&eacute;tique.
test
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
test
s
tsd l2t=k@12lr
1 1 0.5
tr MEM-OFF
0.5
0.2
30 20 0.1
0.2 30
20
10
0.1
test
10
5
s
5 2
tsd
l t=k@12lr
@6I
r s
1 0.5
tr 1 MEM-OFF
0.530 30 200.2
0.1
20
0.2
10
10
5
0.1
tsd
5 l2t=k@12lr
s
r s
1 0.5
1 @6I
0.5
0.2
tr MEM-OFF
0.2 30 30 20 0.1
20
10
0.1
10
s5
5
@6Ir s
tr MEM-OFF
30
20
30
test
20
10
10
5
5
@6Ir s
0 281 66
OK
Protection contre les
courts-circuits
R&eacute;glage courant (9 paliers)
0 281 66
0 281 66
OK
Temporisation de la protection long
retard (@6Ir) (4+4 phases)
tr=5-10-20-30s
(MEM ON)
tr=30-20-10-5s
(MEM OFF)
test
0.2
0.1
tg
1 1 0.5
0.5 0.6 0.7
lsd
li0.4
0.5
0.8
0.2
8 10
6
1
0.2 3 4 5 0.1
0.3
2.5
6
12
0.24
0.1
OFF
8
2
15
3
10
lcw
2
1.5
lg
tg
x ln
x
lsd 1 1 0.5 lr
li 0.5 0.6 0.7
0.5 4 0.2
0.4 6 8 100.8
5
3
lr0.34
2.5
60.1
0.2
121
0.08
0.8 0.915
0.2
0.1
20.06 0.18
3 0.7
OFF
0.04
0.62
10
lcw
1.5
lg
tg
0.02
0.5
0.6 x ln
1 1 0.5x lr
+ 0.00
0.40.5 0.7
0.5
0.8
0.2
lsd
li0.4
0.1
0.2 3 4 5x ln
lr0.3 6 8 10 1
2.5
0.240.7 0.8 0.912
0.10.060.080.16
OFF
N2
MAN
8
15 AUT
0.04
3
0.6
10
lcw
100%
2
0.02
1.5
0.5ON
xlr
x ln + 0.00
x lr
lsd
li0.4
50%
6 8 l&gt;.90
10
3 4 5x ln
OFF
2.5
6
12
lr 4
l&gt;1.05
3 0.7 0.8
N20.060.080.18
0.915 AUT
MAN
10
0.04
lcw
0.62
1.5
100%
xlr
0.02
0.5ON
x ln
x lr
+ 50%
0.4
0.00
l&gt;.90
x
OFF
ln
lr
l&gt;1.05
0.08
lg0.7 0.8 0.9
tg0.06 0.1
0.04
0.6 0.6
N 1 1
AUT
0.5
0.7
0.5 MAN
0.02
0.5
0.5
0.8
100%
0.4ON
0.2
x
lr
0.4
1 + 0.00
0.2
0.1
0.3
50%
0.2
x ln
0.1
OFF
l&gt;.90
OFF
l&gt;1.05
lg MAN
Ntg
AUT
1 1 0.5
0.5 0.6 0.7
100%
lsd
li0.4ON
0.5
0.8
xlr
0.2
8 10
1
0.2 3 4 5 0.1
0.3 6
50%
2.5
6
12
0.24
0.1
OFF
l&gt;.90
OFF
8
2
15
3
l&gt;1.05
10
lcw
2
1.5
lg
tg
x ln
x
lsd 1 1 0.5 lr
li 0.5 0.6 0.7
0.5 4 0.2
0.4 6 8 100.8
5
3
lr0.34
2.5
0.2
60.1
121
0.08
0.8 0.915
0.2
0.1
20.06 0.18
3 0.7
OFF
0.04
0.62
10
lcw
1.5
lg
tg
0.02
0.5
1
0.6
x ln +
1 0.5x lr
0.40.5 0.7
0.00
0.5
0.8
0.2
lsd
li0.4
x
0.2 3 4 5 ln
0.1
lr0.3 6 8 10 1
2.5
0.240.7 0.8 0.912
0.10.060.080.16
OFF
N2
MAN
AUT
8
15
0.04
3
0.6
10
lcw
100%
2
0.02
1.5
0.5ON
xlr
x ln + 0.00
x lr
lsd
li0.4
50%
8
4
x
5 ln
6
10
3
l&gt;.90
OFF
2.5
6
12
lr 4
l&gt;1.05
3 0.7 0.8
N20.060.080.18
0.915
MAN
AUT
10
0.04
lcw
0.62
1.5
100%
x
lr
0.02
0.5ON
x ln
x lr
+ 50%
0.4
0.00
l&gt;.90
x ln
OFF
lrlg
tg
0.08
0.8 l&gt;1.05
0.06
0.9
0.7
0.1
1 1 0.5
0.5 0.6 0.7
0.04
0.6
N0.5
AUT
0.8
0.4 MAN
0.2
0.02
0.5
100%
1lr
0.2
0.1
0.3ON
x
0.4
0.2
0.1
OFF+ 0.00
50%
x ln
lg
tg
l&gt;.90
OFF
1 1 0.5
0.7
0.5 0.6 l&gt;1.05
N
AUT
lsd
li0.4 MAN
0.5
0.8
0.2
100%
6 8 10x1lr
0.2 3 4 5 0.1
0.3ON
2.5
6
12
0.24
0.1
OFF
50%
8
2
15
3
l&gt;.90
10
OFF
lcw
2
1.5
lg
tg
l&gt;1.05
x ln
x
lsd 1 1 0.5 lr
li 0.5 0.6 0.7
0.5 4 0.2
0.4 6 8 100.8
5
3
lr0.34
2.5
0.2
60.1
121
0.08
0.8 0.915
0.2
0.1
20.06 0.18
3 0.7
OFF
0.04
0.62
10
lcw
1.5
lg
tg
0.02
0.5
1 0.5x lr
0.6 0.7
x
1
ln
0.5
+ 0.00
0.4
0.5
0.8
0.2
lsd
li0.4
x ln
8
4
1
0.2
0.3
5 0.1
10
3
lr 6
2.5
0.240.7 0.8 0.912
0.10.060.080.16
OFF
N
8
2
15
0.04
3
0.6
10
lcw
100%
2
0.02
1.5
0.5ON
xlr
x ln + 0.00
x lr
lsd
li0.4
50%
10
6 8 l&gt;.90
3 4 5x ln
OFF
2.5
6
12
lr 4
l&gt;1.05
3 0.7 0.8 0.915
N20.060.080.18
10
0.04
lcw
0.62
1.5
100%
xlr
0.02
0.5ON
x ln
x lr
+ 50%
0.4
0.00
l&gt;.90
x ln
OFF
lr
l&gt;1.05
lg0.7 0.8 0.9
tg0.060.080.1
0.04
0.6 0.6
N 1 1 0.5
0.5 0.7
0.02
0.5
0.5
0.8
0.4
100%
0.2
xlr +
ON
0.4
0.00
1
0.2
0.1
0.3
0.2
0.1
x ln
OFF 50%
l&gt;.90
OFF
l&gt;1.05
lg
tg
N
1 1 0.5
0.5 0.6 0.7
100%
lsd
li0.4
0.5
x0.8
lr
ON
0.2
8 10
0.2 3 4 5 0.1
1
0.3 6
50%
2.5
6
12
4
0.2
0.1
OFF
l&gt;.90
8
OFF
2
15
3
l&gt;1.05
10
lcw
2
1.5
lg
tg
x ln
x
lsd 1 1 0.5 lr
li 0.5 0.6 0.7
0.5 4 0.2
0.4 6 8 100.8
5
3
lr0.34
2.5
60.1
0.2
121
0.08
0.8 0.915
0.2
0.1
20.06 0.18
3 0.7
OFF
0.04
0.62
10
lcw
1.5
lg
tg
0.02
0.5
0.6 x ln
1 1 0.5x lr
+ 0.00
0.40.5 0.7
0.5
0.8
0.2
lsd
li0.4
0.2 3 4 5x ln
0.1
lr0.3 6 8 10 1
2.5
0.240.7 0.8 0.912
0.10.060.080.16
OFF
N2
8
15
0.04
3
0.6
10
lcw
100%
2
0.02
1.5
0.5ON
xlr
x ln + 0.00
x lr
lsd
li0.4
50%
6 8 l&gt;.90
10
3 4 5x ln
OFF
2.5
6
12
lr 4
l&gt;1.05
3 0.7 0.8 0.915
N20.060.080.18
10
0.04
lcw
0.62
1.5
100%
xlr
0.02
0.5ON
x ln
x lr
+ 50%
0.4
0.00
l&gt;.90
x ln
OFF
lr
0.060.080.1
0.9
0.7 0.8 l&gt;1.05
0.04
0.6
N
0.02
0.5
100%
xlr +
ON
0.4
0.00
50%
x ln
l&gt;.90
OFF
l&gt;1.05
N
100%
xlr
ON
OK
Protection contre les
surcharges
R&eacute;glage du courant (@12&times;Ig)
(2x6 paliers)
Ir=0,4&divide;1&times;In
Avec 2 commutateurs
(0,4&divide;0,9, paliers de 0,1
0,0&divide;0,1, paliers de 0,02)
Exemple :
Ir =(0,4+0,06)&times;In= 0,46 In
1 1 0.5
OK
l&gt;.90
l&gt;1.05
C
C
test
C
tsd l t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
test
s
tsd l2t=k@12lr
1 1 0.5
tr MEM-OFF
0.5
0.2
30 20 0.1
0.2 30
20
10
0.1
test
10
5
s
5 2
tsd
l t=k@12lr
@6I
r s
1 0.5
tr 1 MEM-OFF
0.530 30 200.2
0.1
20
0.2
10
10
5
0.1
tsd
5 l2t=k@12lr
s
r s
1 0.5
1 @6I
0.5
0.2
tr MEM-OFF
0.2 30 30 20 0.1
20
10
0.1
10
s5
5
@6Ir s
tr MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
2
C
50%
OFF
7
Unit&eacute; de Protection
OK
Temporisation de la protection
court retard (4+4 paliers)
Tsd=0.1-0.2-0.5-1s (t=const)
Tsd=1-0.5-0.2-0.1s (I t=const)
C
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
lg
0.6
lg 0.5 0.7
li0.4 0.6 0.8
0.7 1
0.3 0.5
6 8 100.8
0.4
0.24 MAN
12
OFF
1
0.3
15
3
0.2
OFF
lcw
2
OK
OK
tg
0.5
0.2
0.1
tg
1 1 0.5
test
0.2
0.1
1 0.5
tg 1
0.5
0.2
lsd
1 1 0.5 0.1
0.2
0.5 3 4 5 0.2
AUT
2.5
6
0.1
0.1
0.22
8
0.1
10
1.5
x ln
x lr
lsd
6 8 10
3 4 5
AUT
lsd
li 4 MAN
2.5
6
12
lr
8
4
5
10 15
3 0.08 8
20.06
MAN
AUT
3 0.76 0.8
0.9
0.16
2.5
12
4
10
lcw
0.04
0.62
1.5
8
2
15
3
0.02
0.5
x
x
ln
lr
10
lcw
2
1.5
+ 0.00
0.4
x ln
x lr
x ln
lr
0.060.080.1
0.7 0.8 0.9
lr0.6
0.04
N
0.8 0.9
0.060.080.1
0.02
0.50.7
100%
0.04
0.6ON
xlr +
0.4
0.00
0.02
0.5
50%
x ln
+ 0.00
0.4
l&gt;.90
OFF
x ln
l&gt;1.05
N
100%
N
xlr
ON
li
xlr
l&gt;.90
l&gt;1.05
l&gt;.90
l&gt;1.05
ON
test
test 2
tsd
l t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
tsd l2t=k@12lr
s
1
0.5
tsd1 l2t=k@12lr
0.5
0.2
tr MEM-OFF
1 0.50.1
1 30
0.2 30
200.2
0.5
20
10
0.1
0.1
0.2
10
s5
0.1
5
s
@6I
r
s
tr MEM-OFF
30 30 20
tr20 MEM-OFF
10
10 30 30 20 5
20
10
5
10
5
@6Ir s
5
@6Ir s
0 281 66
0 281 66
0 281 66
100%
50%
OFF
50%
OFF
OK
C
MAN
Protection instantan&eacute;e contre
les courts-circuits de tr&egrave;s
grande intensit&eacute;
R&eacute;glage du courant (9 paliers)
Ii=2-3-4-6-8-10-12-15x In ou Icw
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2 MAN
OFF
lg MAN
0.6
lg 0.5 0.7
li0.4 0.6 0.8
0.7 1
0.3 0.5
6 8 100.8
0.4
0.24
12
OFF
1
0.3
15
3
0.2
OFF
lcw
2
OK
OK
Protection neutre
R&eacute;glage courant (3 paliers)
N=OFF-50%-100%
Protection contre surchauffe
(non r&eacute;glable) t &gt;95&deg;C
* &quot;Seuil d intervention ultime
non r&eacute;glable=lsf=Icw@415V&quot;
tg
1 1 0.5
0.5
0.2
AUT
0.1
AUT
tg
test
0.2
0.1
xlr
l&gt;.90
l&gt;1.05
l&gt;.90
l&gt;1.05
test
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
tsd l2t=k@12lr
s
1
0.5
tsd1 l2t=k@12lr
0.5
0.2
tr MEM-OFF
1 0.50.1
1 30
0.2 30
200.2
0.5
20
10
0.1
0.1
0.2
10
s5
0.1
5
s
@6I
r
s
tr MEM-OFF
30 30 20
tr20 MEM-OFF
10
10 30 30 20 5
20
10
5
10
5
@6Ir s
5
@6Ir s
0 281 66
0 281 66
100%
50%
OFF
50%
OFF
OK
C
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
lg
0.6
lg 0.5 0.7
li0.4 0.6 0.8
0.7 1
0.3 0.5
6 8 100.8
0.4
0.24
12
OFF
1
0.3
15
3
0.2
OFF
lcw
2
OK
OK
x ln
li
C
C
0 281
66
test
1 0.5
tg 1
0.5
0.2
lsd
1 1 0.5 0.1
0.2
0.5 3 4 5 0.2
2.5
6
0.1
0.22
0.1
8
0.1
10
1.5
x ln
x lr
lsd
6 8 10
3 4 5
lsd
li 4
2.5
6
12
lr
8
4
5
10 15
3 0.08 8
20.06
3 0.76 0.8 0.9
0.16
2.5
12
4
10
lcw
0.04
0.62
1.5
8
2
15
3
0.02
0.5
x
x
ln
lr
10
lcw
2
1.5
+ 0.00
0.4
x ln
x lr
x ln
lr
0.060.080.1
0.7 0.8 0.9
lr0.6
0.04
N
0.8 0.9
0.060.080.1
0.02
0.50.7
100%
0.04
0.6ON
xlr +
0.4
0.00
0.02
0.5
50%
x ln
+ 0.00
0.4
l&gt;.90
OFF
x ln
l&gt;1.05
N
100%
N
xlr
ON
tg
0.5
0.2
0.1
tg
1 1 0.5
test
0.2
0.1
1 0.5
tg 1
0.5
0.2
lsd
1 1 0.5 0.1
0.2
0.5 3 4 5 0.2
2.5
6
0.1
0.1
0.22
8
0.1
10
1.5
lsd
x lr
6 8 10
3 4 5
lsd
li 4
2.5
6
12
lr
8 10 15
4 5 8
3 0.08
20.06
3 0.76 0.8 0.9
0.16
2.5
12
4
10
lcw
0.04
0.62
1.5
8
2
15
3
0.02
0.5
x ln
x10
lr
lcw
2
1.5
+ 0.00
0.4
x ln
x lr
x ln
lr
0.060.080.1
0.7 0.8 0.9
lr0.6
0.04
N
0.8 0.9
0.060.080.1
0.02
0.50.7
100%
0.6ON
xlr + 0.04
0.4
0.00
0.02
0.5
50%
x ln
+ 0.00
0.4
l&gt;.90
OFF
x ln
l&gt;1.05
N
100%
N
xlr
ON
ON
8
AUT
li
ON
C
C
xlr
l&gt;.90
l&gt;1.05
l&gt;.90
l&gt;1.05
100%
50%
OFF
50%
OFF
C
C
test
test 2
tsd
l t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
2
tsd l t=k@12lr
s
0.5
tsd1 l21t=k@12lr
0.5
0.2
tr MEM-OFF
1 0.50.1
1 30
0.2 30
200.2
0.5
20
10
0.1
0.1
0.2
10
s5
0.1
5
@6Ir ss
tr MEM-OFF
30 30 20
tr20 MEM-OFF
10
10 30 30 20 5
20
10
5
10
5
@6Ir s
5
@6Ir s
PROTECTION DU NEUTRE
Position
Protection
OFF
Non prot&eacute;g&eacute;
50%
Prot&eacute;g&eacute; &agrave; 50% Ir-Isd-Ii
100%
Prot&eacute;g&eacute; &agrave; Ir-Isd-Ii
Unit&eacute; de Protection
3. Signalisation de l‘&eacute;tat de l‘unit&eacute; de protection
4
3
2
2.5
2
1.5
12
15
lcw
6
0.5
4 8 12
0.2
15
3 10
0.1
lcw
2
x lr
x ln
x ln
2.50.2
2 0.1
1.5
s
6
8
10
x lr
tr
MEM-OFF
lr
0.060.08
0.7 0.8 0.9
0.10.8 0.9 30 30 20
0.060.080.1
0.7
20
0.04
0.6
0.0410
0.6
0.02
10
0.5
0.02 5
0.5
+ 0.00
5
0.4
+ 0.00
MAN 0.4
AUT
@6I
r s AUT
x ln
MAN
x ln
lr
VOYANT 2
xlr
ON
VOYANT 1
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
ON
xlr
0.5
0.2
0.1
0.2
0.1
s
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
N
100%
50%
l&gt;.90 0 281
OFF 66
l&gt;1.05
0 281 66
L’&eacute;tat de l’unit&eacute; de protection est signal&eacute; par l’interm&eacute;diaire des voyants 1 et 2, conform&eacute;ment au
tableau ci dessous :
VOYANT 1
PROTECTION
Inactif
VOYANT 2
Commut&eacute; sur Off
Actif: (I ≥ 250A ou aliment&eacute;)
Commut&eacute; sur Off
Vert
Fixe
Commut&eacute; sur Off
Actif: (pr&eacute;-alarme surcharge I &gt; 0,9 Ir)
Vert
Fixe
Rouge
Fixe
Actif: (alarme surcharge I &gt; 1,05 Ir)
Vert
Fixe
Rouge
Clignotement
Actif: (alarme surchauffe T &gt; 75&deg;C)
Vert
Clignotement
Rouge
Clignotement
Une alarme est prioritaire sur qu’une pr&eacute;-alarme. La surcharge est prioritaire sur que la surchauffe.
VOYANT 3
D&eacute;clenchment sur d&egrave;fault de terre
(uniquement pour r&eacute;f. 0 281 66
et 0 281 68)
VOYANT 4
D&eacute;clenchement sur court-circuit/
court-circuit instantan&eacute;
VOYANT 5
D&eacute;clenchement sur surcharge
ou temp&eacute;rature
En cas de d&eacute;clenchement du
disjoncteur, la LED correspondant
&agrave; la protection qui a provoqu&eacute; le
d&eacute;clenchement reste allum&eacute;e,
signalant l'erreur correspondante
(si une alimentation externe est
pr&eacute;sente).
OK
lg
VOYANT
3 0.7
0.5 0.6
0.4
0.3
0.2
li
15
lcw
x ln
lr
0.7 0.8
VOYANT
5 0.9
0.6
0.5
0.4
tg
0.8
1
OFF
8 10
64
VOYANT
12
4
3
2
C
OK
0.5
0.2
0.1
lsd
2.5
2
1.5
lg
1 1 0.5
test
0.5 0.6 0.7
0.8
0.40.2
0.1
1
0.3
0.2
OFF
C
tg
0.5
0.2
0.1
1 1 0.5
test
0.2
0.1
tsd l t=k@12lr
lsd
1 1 0.5
8
10
3 4 5
6 6 0.5
0.2
2.5
6
12
48
0.1
0.2
8
2
15
3 10
0.1
10
lcw
2
1.5
x lr
s
x ln
x lr
2
li
3 4 5
tr MEM-OFF
0.060.08lr0.1 0.8 30 30 20
0.08
0.9
0.7
20
0.04
100.06 0.1
0.04
0.6
0.02
10
5
0.02
0.5
+ 0.00
5
+
0.4
@6Ir0.00
s
x ln
x ln
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
s
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
9
Unit&eacute; de Protection
4. Bouton de Test
Le bouton TEST se trouve sur le c&ocirc;t&eacute; droit de l'unit&eacute; de protection,sous les boutons de navigation.
Cette commande permet de v&eacute;rifier le fonctionnement du disjoncteur et de son unit&eacute; de protection.
En appuyant sur le bouton de TEST pendant plus
de 2 secondes, le disjoncteur d&eacute;clenche, ce qui
permet de contr&egrave;ler le fonctionnement du dispositif de protection.
10
La s&eacute;quence de d&eacute;clenchement est la suivante:
1. Appuyer pendant au moins 2 secondes sur le
bouton T.
2. Tous les voyants s'allument pendant 1seconde
(le voyant ON passe en orange les cutres
voyants en rouge).
3. Le disjoncteur d&eacute;clenche et les voyants s'&eacute;telgnent.
Le voyant ON passe de l'orange au vert.
Unit&eacute; de Protection
5. Visualisation et utilisation des menus
Appuyer pour afficher l’&eacute;cran
OK
C
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
tg
0.5
0.2
0.1
1 1 0.5
test
0.2
0.1
Pour naviguer dans les menus,utiliser les boutons OK.
▲ et ▼. Il est possible de visualiser 3 types de pages.
• Page par d&eacute;faut : montre l’&eacute;tat du disjoncteur dans toutes les utilisations admises (ferm&eacute;normal, ferm&eacute;-alarme d&eacute;clench&eacute;, ouvert). Ces
indications s’affiche &agrave; chaque fois que l’unit&eacute; de
protection est allum&eacute;e et elle sont automatiquement mises &agrave; jour dans le cas o&ugrave;.&agrave; l'issue
d’une dur&eacute;e pr&eacute;&eacute;tablie (programm&eacute;e sur T1=10
seconds), aucun des 4 boutons de navigation n'ait
utlis&eacute;. Depuis cette page, il est possible d'acc&eacute;der
&agrave; la page Menu en appuyant sur le bouton OK.
• Pages menu : il s'agit des pages actives
ferm&eacute;-normal
N:
1550A
L1:
1600A
L2:
1605A
L3:
1598A
durant l'utilisation du menu. Il est possible de
quitter des pages de sous-menus permettant le
r&eacute;glage d'un param&egrave;tre (exemple: r&eacute;glage de la
luminosit&eacute;) de trois mani&egrave;re diff&eacute;rentes:
(1) appuyer sur le bouton OK : retour au
niveau sup&eacute;rieut avec sauvegarde du nouveau
param&egrave;tre.
(2) appuyer sur le bouton C : retour au
niveau sup&eacute;rieut sans sauvegarde du nouveau
param&egrave;tre.
(3) Au bout de la dur&eacute;e T1: retour &agrave; la
page principale sans sauvegarde du nouveau
param&egrave;tre.
ferm&eacute;-alarme
d&eacute;clench&eacute;
alarme
surchauffe
d&eacute;clenchement de la
phase de surcharge L1
5.42 S
9648 A
In=
1586A
I1=
9648A
1610A
I2=
I3=
1598A
T &gt;75&deg;C
OK
ouve
L2:
0A
L3:
0A
N:
0A
protections
courant
OK
&eacute;tat modules
param.
syst&egrave;me
C
0A
C
protections
t &gt; 20m
L1:
archives
C
11
Unit&eacute; de Protection
6. Page par d&eacute;faut
Comme indiqu&eacute; ci-apr&egrave;s, l’&eacute;cran est constitu&eacute; de huit lignes pour afficher les contenus.
Le disjoncteur peut se trouver dans quatre types d’&eacute;tat :
1. Disjoncteur en ferm&eacute;-normal : (aucune pr&eacute;-alarme ni signal d’alarme)
le contr&ocirc;leur affiche :
L1:
1600A
L2:
1605A
L3:
1598A
N:
550A
Dans cette condition (disjoncteur ferm&eacute; et absence d’alarme), il est possible d’acc&eacute;der &agrave; la page
principale en appuyant sur le bouton OK.
L1, L2 et L3 sont toujours mesur&eacute;s ; seul le Neutre est pr&eacute;sent.
12
Unit&eacute; de Protection
2. Disjoncteur ferm&eacute;-alarme :
quand le disjoncteur est en condition d’alarme, l’&eacute;cran de l’unit&eacute; de protection affiche :
alarme
surchauffe
Talarme
&gt;75&deg;C
surchauffe
T &gt;75&deg;C
Dans cette condition, il est possible d’acc&eacute;der &agrave; la page principale en appuyant sur le bouton OK.
3. Disjoncteur d&eacute;clench&eacute; :
l’&eacute;cran affiche :
D&eacute;faut thermique L1
5.42 S
D&eacute;faut thermique L1
9648 A
I n=
1586A
5.42
S
I1=
9648A
A
I2= 96481610A
n=
II3=
1598A
1586A
I1=
9648A
I2=
1610A
I3=
1598A
La premi&egrave;re ligne et la deuxi&egrave;me ligne de l’&eacute;cran affiche la page d’erreur.
Si plusieurs erreurs sont pr&eacute;sentes ou si la m&ecirc;me erreur est pr&eacute;sente sur plusieurs phases, il est possible
d'acc&eacute;der &agrave; la page principale en appuyant sur le bouton OK et de contr&ocirc;ler les donn&eacute;es enregistr&eacute;es.
13
Unit&eacute; de Protection
4. Disjoncteur ouvert :
l’&eacute;cran affiche :
L1:
0A
L2:
0A
L3:
0A
N:
0A
Depuis cette page, il est possible d’acc&eacute;der &agrave; la page principale en appuyant sur le bouton OK.
7. Visualisation des courants de r&eacute;glages
Chaque courant peut &ecirc;tre visualis&eacute; de 2 mani&egrave;res diff&eacute;rentes:sous la forme d'un histogramme ou d'une
valeur num&eacute;rique (tous deux calcul&eacute;s avec la m&ecirc;me pr&eacute;cision):
Le nombre maximal de chiffres,pour la valeur num&eacute;rique,est 4,donc pour les valeurs inf&eacute;rieures &agrave;
9999, le courant est exprim&eacute; en Amp&egrave;res,tandis que pour les valeurs comprises entre 10000 et
99999, les courants sont exprim&eacute;s en kiloAmp&egrave;res, avec une approximation &agrave; la plus proche valeur
d&eacute;cimale inf&eacute;rieure :
• Exemple 1 : 1 450 Amp&egrave;res
dans ce cas l'affichage indiquera 1 450 A
• Exemple 2 : 1 2541 Amp&egrave;res
dans ce cas l'affichage indiquera 12.5 KA
L’histogramme de courant peut afficher des valeurs sup&eacute;rieures ou &eacute;gales au seuil 1,2*I (A) ; le seuil
l est le seuil de courant pour la protection thermique (Ir) ; si le courant mesur&eacute; est sup&eacute;rieur &agrave; la valeur
maximum, l’histogramme complet s’affiche (soit &eacute;quivalent &agrave; un seuil de 120%). Chaque histogramme
contient un maximum de 48 unit&eacute;s graphiques, chacun correspondant &agrave; 2% du montant total,avec une
approximation &agrave; la valeur d&eacute;cimale inf&eacute;rieure la plus proche :
• Exemple : Ir = 1000A chaque point graphique correspond &agrave; 20A.Si,dans ce cas, I1 = 18A et I2
= 565A, sur l'histogramme, il n'y aura pas de point graphique pour I1 et 28 points graphiques pour I2.
14
Unit&eacute; de Protection
8. Pages menu :
protections
protections
courant
&eacute;tat
alarmes mesurescourant
temp&eacute;rature
pr&eacute;sentes
OK
OK
param. syst&egrave;me
alarmes mesures
temp&eacute;rature
&eacute;tat modules
&eacute;tat
&eacute;tat modules
param. syst&egrave;me
archives pr&eacute;sentes
OK
OK
OK
OK
I1=
I2=
I3=
I N=
Ig=
I2=
I3=
I N=
Ig=
0A
0A
0A
0A
0A
0A
0A
0A
0A
0A
{
{
{
{
{{
{{
archives
instant.
instant. I1=
niveau 1
niveau 1
niveau 2
niveau 3
niveau 3
niveau 2
niveau 4
niveau 4
VISUALISATION :
L’&eacute;cran affiche 4 niveaux de donn&eacute;es imbriqu&eacute;es,il est possible de les modifier &agrave; l'aide des toudres ▲
et ▼
; l’indication encadr&eacute;e signifie la pr&eacute;sence d’une autre page : pour acc&eacute;der au sous-niveau,
appuyer sur le bouton OK.
R&Eacute;GLAGES :
Si la page permet de r&eacute;gler un param&egrave;tre (exemple : r&eacute;glage s&eacute;quence phase, r&eacute;glage adresse
Modbus, etc.), il est possible de modifier la valeur &agrave; l’aide des boutons ▲et ▼, jusqu’&agrave; ce que le
cadre s’affiche en gras pour acc&eacute;der &agrave; l’&eacute;tat de r&eacute;glage en appuyant sur le bouton OK. Les nouveaux
r&eacute;glages sont actifs uniquement &agrave; condition d’&ecirc;tre confirm&eacute;s en appuyant sur le bouton OK.
Adresse
Modbus com.
3
AdresseVitesse
Modbus com.9.6k
3
Vitesse
9.6k
15
Unit&eacute; de Protection
9. Accessoires
0 281 72 Module d alimentation externe
L'appareil dispose d'une entr&eacute;e 230V AC et une consommation &eacute;lectrique maximale de 25 VA.
L'alimentation dispose de 4 sorties ind&eacute;pendantes afin de raccorder 4 unit&eacute;s de protection.
Ce produit pr&eacute;voit 2 types d’installation en adoptant des rails standard de 35 mm ou une fixation
directe. Ci-dessous sortie et dimensions d’installation.
ENTR&Eacute;E
SORTIE
39
8
2.5
45
1.5
4
35.5
82
90
24.5
72/144
4.5
53
7.5
60.5/121
2.5
Note: DMX3 1600 seul: Pour garantir un bon fonctionnement de l'unit&eacute; de protection, l'alimentation
externe est obligatoire.
Deux options sont possibles:
1. par alimentation externe auxiliaire (LG-028172)
2. par alimentation directe 110-230Vac (bornes PU1-PU2)
*pour alimentation directe, prevoir une protection &agrave; fusible (50mA type gR)
16
Unit&eacute; de Protection
0 281 70 (Assembl&eacute; en usine)
Modbus RS485 option communication
Assembl&eacute;e en usine, cette option permet de brancher le disjoncteur &agrave; un syst&egrave;me de supervision
MODBUS RS485.
0 281 99 (Assembl&eacute; en usine)
Contacts module r&eacute;glable
Ce module est un accessoire utilis&eacute; pour g&eacute;rer d’autres dispositifs externes de signal/contr&ocirc;le. Il doit
&ecirc;tre reli&eacute; &agrave; l’unit&eacute; de protection qui permet son r&eacute;glage et doit &ecirc;tre branch&eacute; aux bornes sur la partie
sup&eacute;rieure du disjoncteur.
Activation:
Les sorties programmables peuvent &ecirc;tre activ&eacute;e avec le changement de r&eacute;glages d'unit&eacute; de protection
MP4,dans le menu de PU comme sp&eacute;cifi&eacute; ci-dessous:
Etape 1: R&eacute;glage ➔ Relais ➔ Programmation ➔ choisir Relais 1 ou 2 dans la liste de
sorties ➔choisir les options dans Ia liste de fonctionnes
Etape 2: R&eacute;glage ➔Relais ➔Fonction de contact ➔choisir Relais 1 ou 2 dans la liste de
sorties ➔ choisir les options (NO/NC - Stable/temporis&eacute;) dans la liste de fonctionnes.
Options
NO Niveau
NC Niveau
NO temps (1&divide;360s)
NC temps (1&divide;360s)
Characteristiques techniques:
Tension nominale Vn
(Vac) 230V 5A MAX
(Vdc) 110V 0.5A MAX
17
Unit&eacute; de Protection
0 281 71 pour DMX3 1600
6 696 05 pour DMX-SP 2500
Transformateur de courant externe pour erreur terre et protection neutre
Il est possible de l’utiliser avec des disjoncteurs &agrave; 3 p&ocirc;les et il est install&eacute; sur le neutre dans les cas
suivants :
- protection neutre (avec toutes les versions de l'unit&eacute; de protection);
- protection erreur terre (seulement avec version 0 281 66 et 0 281 68).
18
Unit&eacute; de Protection
10. S&eacute;lectivit&eacute; logique
La s&eacute;lectivit&eacute; logique n'est pas incluse dans les versions des unit&eacute;s de cont&ocirc;le r&eacute;f.0 281 67/0 281 68.
Pour les indications g&eacute;n&eacute;rales et les exigences concernant la fonction S&eacute;lectivit&eacute; Logique, reqortez-vous
au Guide de S&eacute;lectivit&eacute; Logique standard.
Bornes de raccordement
Veuillez vous r&eacute;f&eacute;rer au manuel d'installation du disjoncteur.
Activation
Les connexions d'entr&eacute;e /sortie pour la s&eacute;lectivit&eacute; logique peuvent &ecirc;tre activ&eacute;es au moyen de la modification des param&egrave;tres de l'unit&eacute; de protection en naviguant dans le menu, comme sp&eacute;cifi&eacute; ci-dessous :
R&eacute;glage ➔ Relais ➔ Programmation ➔choisir SEL IN dans la liste des contacts ➔s&eacute;lectionner ON dans la liste des fonctions (non requis pour le dernier niveau de s&eacute;lectivit&eacute; en aval - D)
R&eacute;glage ➔ Relais ➔ Programmation ➔choisir SEL OUT dans la liste des contacts ➔s&eacute;lectionner ON dans la liste des fonctions (requis pour tous les niveaux de s&eacute;lectivit&eacute; A/B/C/D)
Connexions et alimentation:
Veuillez noter que l'unit&eacute; de protection doit toujours &ecirc;tre aliment&eacute;e par un module externe sp&eacute;cifique
r&eacute;f. 0 281 72 pour le bon fonctionnement de la s&eacute;lectivit&eacute; logique.
Par ailleurs,l'entr&eacute;e de la s&eacute;lectivit&eacute; logique (SEL - IN) doit &eacute;galement &ecirc;tre aliment&eacute;e sur ses bornes par
une tension de 24Vdc. Dans le d&eacute;tail,la polarit&eacute; positive de l'alimentation + (24V) doit &ecirc;tre connect&eacute;e
&agrave; la borne H11.
Cette alimentation peut &ecirc;tre fournie par le m&ecirc;me module ref. 0 281 72 qui alimente l'unit&eacute; de protection.
En revanche,la sortie de la s&eacute;lectivit&eacute; logique (SEL - OUT) ne n&eacute;cessite pas d'alimentation suppl&eacute;mentaire.
19
Unit&eacute; de Protection
Sch&eacute;ma de cataloque:
1#1#
DO
DO
DIDI
DCDC
24V
24V
2#2#
DO
DO
3#3#
DIDI
DO
DO
4#4#
DIDI
DO
DO
DIDI
Ci-dessous,un r&eacute;sum&eacute; des principaux niveaux de s&eacute;lectivit&eacute; (A/C/D) et les prescriptions sp&eacute;cifiques
relatives afin de communiquer correctement.
AA
DMX&sup3;
DMX&sup3;
IN
L max = 30 m
L max = 30 m
IN
OUT
OUT
IN
L max = 30 m
L max = 30 m
IN
OUT
OUT
2500
2500
1600
1600
OUT
OUT
DMX&sup3;
DMX&sup3;
6300
6300
4000
4000
SEL + +
SEL
IN
IN
OUT
OUT
OUT
OUT
DMX&sup3;
DMX&sup3;
1600
1600
SEL + +
SEL
IN
IN
OUT
OUT
ON
ON
SEL
SEL
IN
IN
ON
ON
DMX&sup3;
DMX&sup3;
4000
4000
2500
2500
1600
1600
OUT
OUT
DMX&sup3;
DMX&sup3;
DPX
1600
DPX 1600
DPX 630
DPX 630
DPX 250
DPX 250
DPX&sup3;
DPX&sup3;
SEL
SEL
IN
IN
IN
ON
ON
OUT
OUT
SEL
SEL
IN
IN
DD
DD
DMX&sup3;
DMX&sup3;
DPX
1600
DPX 1600
DPX 630
DPX 630
DPX 250
DPX 250
DPX&sup3;
DPX&sup3;
IN
CC
CC
DMX&sup3;
DMX&sup3;
1600
1600
OFF
OFF
SEL + +
SEL
OUT
OUT
SEL + +
SEL
IN
IN
DMX&sup3;
DMX&sup3;
1600
1600
OUT
OUT
SEL + +
SEL
IN
IN
ON
ON
OFF
OFF
DPX 630
DPX 630
DPX 250
DPX 250
DPX&sup3;
DPX&sup3;
OUT
OUT
SEL + +
SEL
IN
IN
Remarque:
Il n'y a aucun risque ni aucune restriction quant &agrave; l'utilisation de la s&eacute;lectivit&eacute; logique des DMX3 1600/
DMX-SP avec des aurtes dispositifs DPX/DPX3/DMX3 (o&ugrave; l'alimentation 24Vdc n'est pas n&eacute;cessaire).
20
Unit&eacute; de Protection
11. Navigation menu
L1:
OA
L2:
OA
L3:
OA
N:
OA
OK
1/6
protections
&eacute;tat modules
param.
syst&egrave;me
archives
1/1
1/5
(protections
courant)
OK
OK
(protections
courant)
longue dur&eacute;e
courte dur&eacute;e
instant.
longue dur&eacute;e
OK
IR=1600A
(100.0%In )
modifier avec commande
longue dur&eacute;e
TR=C3
suite page 22
&eacute;tat 2/6
( 20s @6.0IR
m&eacute;m-therm.
on )
modifier avec commande
2/5
(protections
courant)
longue dur&eacute;e
courte dur&eacute;e
instant.
t=k
OK
I=12800A
( 8.0&times; IR
T=0.5s )
modifier avec commande
3/5
(protections
courant)
longue dur&eacute;e
courte dur&eacute;e
instant.
instant.
OK
I=24000A
( 15.0&times;In)
modifier avec commande
4/5
protec. neutre
protec. terre
protec. neutre
OK
OFF
modifier avec commande
5/5
protec. terre
protec. neutre
protec. terre
OK
OFF
modifier avec commande
seulement pour les versions avec protection de terre
21
Unit&eacute; de Protection
2/6
&eacute;tat
protections
modules
param. syst&egrave;me
archives
1/3
OK
&eacute;tat
alarmes
mesures
pr&eacute;sentes
&eacute;tat
ferm&eacute;
OK
2/3
&eacute;tat
alarmes pr&eacute;sentes
aucune alarme
alarmes mesures
OK
pr&eacute;sentes
3/3
&eacute;tat alarmes
pr&eacute;sentes
mesures
1/2
instant.
courant
temp&eacute;rature
OK
OK
I1=
I2=
0A
0A
I3=
0A
I N=
0A
Ig=
0A
suite page 23
modules 3/6
2/2
temp&eacute;rature
temp&eacute;rature
courants
22
OK
T=35&deg;C
Unit&eacute; de Protection
3/6
protections
&eacute;tat
modules
param. syst&egrave;me
archives
1/2
Adresse
r&eacute;glages relai
Modbus com.
r&eacute;glage com.
OK
OK
3
OK
vitesse
9.6k
Modifier/sauvegarder
adresse de communication
vitesse detransmission
1/3
2/2
com. r&eacute;glage
r&eacute;glage relai
r&eacute;glages relai
r&eacute;glages
OK
func. ser&eacute;glages
fonc. relai 1
fonc. mode
OK
alarme-g&eacute;n&eacute;r.
fonct. &eacute;tat relai
OK
modifier/sauvegarder le
r&eacute;glage de la fonction
2/3
suite page 24
param&egrave;tres
syst&egrave;me 4/6
r&eacute;glage relai
r&eacute;glages
fonc. mode
fonct. &eacute;tat relai
mode fonct.
relai 1
OK
niveau N / O
OK
modifier/sauvegarder le
mode de travail
3/3
r&eacute;glage relai
r&eacute;glages
fonc. mode
fonct. &eacute;tat relai
OK
relai 1
relai 2
relai 3
SEL-IN
Options
Hors service
Alarme
D&eacute;fauts de declench
Surcharge de l'alarme
D&eacute;faut de surcharge
D&eacute;faut magnetique
D&eacute;faut instantan&eacute;
D&eacute;faut de terre
D&eacute;faut du neutre
Ferm&eacute;
Ouvert
Fix. Instantan&eacute; D&eacute;fauts
Surchauffe &gt;75&deg;C
23
Unit&eacute; de Protection
1/4
4/6
protections
&eacute;tat
modules
param. syst&egrave;me
archives
OK
disjoncteur
protocole com.
date / heure
langue
OK
courant assign&eacute;
1600A
Nb de p&ocirc;les
4P
s&eacute;quence phase
L1, L2, L3, N
2/4
disjoncteur
protocole
date / heure
langue
protocole com.
OK
Modbus
3/4
disjoncteur
protocole com.
date / heure
langue
date
OK
2015/06/08
heure
14:30:30
OK
r&eacute;gler date et heure
4/4
disjoncteur
protocole com.
date /heure
langue
suite page 25
archives 5/6
24
OK
langue
langue
langue
Anglais
Anglais
Fran&ccedil;ais
OK
OK
sauvegarder
Unit&eacute; de Protection
5/6
1/3
historique
positions
protections
&eacute;tat modules
param.
syst&egrave;me
archives
historique
positions
historique
erreurs
OK
historique
alarmes
ferm. locale
2015/06/08
ouv. erreur
2015/06/08
10 fois historique
de position
ferm. locale
2015/06/08
2/3
historique erreurs
historique
positions
historique
erreurs
OK
d&eacute;clench.
surcharge
2015/06/08
d&eacute;clench.
surcharge
2015/06/08
historique
alarmes
10 fois historique
de d&eacute;clenchement
d&eacute;clench.
surcharge
2015/06/08
3/3
historique
positions
historique
erreurs
historique
alarmes
OK
historique
alarme
surchauffe
pr&eacute;-alarme
2015/06/08
pr&eacute;-alarme
surchauffe
2015/06/08
pr&eacute;-alarme
surchauffe
10 fois historique
l’historique des alarmes
6/6
information
OK
FW version
P1605, T31H
DMX 3
25
Unit&eacute; de Protection
12. Structure des menus
MENU NIVEAU 1 MENU NIVEAU 2 MENU NIVEAU 3
MENU NIVEAU 4
longue dur&eacute;e
courte dur&eacute;e
protections
protection courant
instantan&eacute;
protec. neutre
protec. terre
&eacute;tat
&eacute;tat
alarmes pr&eacute;sentes
mesures
r&eacute;glage com.
courants
instant.
temp&eacute;rature
Adresse Modbus
com.
vitesse
relai 1
r&eacute;glage fonct
modules
relai 2
SEL-OUT
SEL-IN
r&eacute;glages relai
NO/NF/NO impulsion/NF impulsion
mode fonct.
NO/NF/NO impulsion/NF impulsion
NO/NF/NO impulsion/NF impulsion
NO/NF
&eacute;tat relai
disjoncteur
param&egrave;tres syst&egrave;me
MODBUS
date / heure
date - heure
historique positions
archives
historique erreurs
historique alarmes
information
26
courant assign&eacute; - Nb p&ocirc;les - s&eacute;quence phase
protocole com.
langue
FW version
NO: O, NF: I
Anglais
Autres langues
Protection unit
References 0 281 64/65/66/67/68
June 17
LE08438AB
Contents
1. Identification and factory setting . . . . .
30
2. Setting protection levels . . . . . . . . . . . .
32
3. Signaling of protection unit state . . . . . . .
35
4. Test button . . . . . . . . . . . . . . . . . . . . . . .
36
5. Visualization and use of menus . . . . . .
37
6. Default page . . . . . . . . . . . . . . . . . . . . . .
38
7. Setting of current visualization . . . . . . .
40
8. Menu pages . . . . . . . . . . . . . . . . . . . . . .
41
9.Accessories . . . . . . . . . . . . . . . . . . . . . . .
42
10. Logical selectivity . . . . . . . . . . . . . . . . . .
45
11. Menu navigation . . . . . . . . . . . . . . . . . .
47
12. Menu structure . . . . . . . . . . . . . . . . . . .
52
Version FW: P1611, TXXH GLXX DMX3
29
Protection unit
1. Identification and factory setting
0 281 64
LCD TYPE WITH LI
PROTECTION
factory setting
Ii=Icw
Isd=10 x Ir fix
tsd=0.1s fix
Ir=(0.9+0.1) xIn
tr=5s (MEM=OFF)
N=100%
MAN
AUT
0 281 68
t
t
OK
C
OK
li
4
3
2
6 8 10
12
15
lcw
lsd
2.5
2
1.5
x ln
6
8
10
x lr
lr
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
ON
xlr
l&gt;.90
l&gt;1.05
MAN
AUT
MAN
4
3
2
x ln
ON
xlr
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
6 8 10
12
15
lcw
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
2.5
2
1.5
3 4 5
x ln
0.2
0.1
6 8 10
12
15
lcw
2.5
2
1.5
ON
xlr
MAN
3 4 5
6
8
10
x lr
lr
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
ON
xlr
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
tsd l2t=k@12lr
1 1 0.5
0.2
0.1
0.5
0.2
0.1
tr
x lr
s
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
N
100%
50%
OFF
AUT
0 281 66
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
0.5
0.2
0.1
li
lsd
4
3
2
6 8 10
12
15
lcw
tg
2.5
2
1.5
1 1 0.5
3 4 5
x ln
s
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
0.5
0.2
0.1
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
AUT
lsd
tsd l2t=k@12lr
1 1 0.5
0.2
0.1
6
8
10
lr
l&gt;.90
l&gt;1.05
x ln
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
lsd
4
3
2
s
tr
test
4
3
2
lr
li
1 1 0.5
test
0 281 65
li
6 8 10
12
15
lcw
0.5
0.2
0.1
N
100%
test
li
0.5
0.2
0.1
tg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
50%
OFF
0 281 64
0 281 67
BASIC TYPE LSI PROTECTION
factory setting
Ii=Icw
Isd=10 x Ir
tsd=0.1s (t=const)
Ir=(0.9+0.1) xIn
tr=5s (MEM=OFF)
N=100%
tsd l t=k@12lr
1 1 0.5
0.2
0.1
2
3 4 5
C
lg
test
0 281 66
LCD TYPE WITH LSIg
PROTECTION
factory setting
Ig=0.2&times;In
tg=0.1 @ t=const, li=Icw
Isd=10 x Ir
tsd=0.1s (t=const)
Ir=(0.9+0.1) xIn
tr=5s (MEM=OFF)
N=100%
30
MAN
0 281 67
0 281 65
LCD TYPE WITH LSI
PROTECTION
factory setting
Ii=Icw
Isd=10 x Ir
tsd=0.1s (t=const)
Ir=(0.9+0.1) xIn
tr=5s (MEM=OFF)
N=100%
0 281 68
BASIC TYPE WITH LSIg
PROTECTION
factory setting
Ig=0.2&times;In
tg=0.1 @ t=const, li=Icw
Isd=10 x Ir
tsd=0.1s (t=const)
Ir=(0.9+0.1) xIn
tr=5s (MEM=OFF)
N=100%
&quot;MEM OFF&quot; = Thermal memory
deactivated
AUT
test
0.2
0.1
6
8
10
x lr
lr
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
ON
xlr
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
tsd l2t=k@12lr
1 1 0.5
0.2
0.1
0.5
0.2
0.1
tr
s
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
Protection unit
RESET PIN
MAN
AUT
0 281 66
LCD INTERFACE DISPLAY
OK
TRIP LED INDICATION
GROUND FAULT
PROTECTION
C
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
0.5
0.2
0.1
li
lsd
4
3
2
6 8 10
12
15
lcw
tg
2.5
2
1.5
1 1 0.5
3 4 5
x ln
test
6
8
10
0.060.080.1
0.7 0.8 0.9
0.04
0.6
0.02
0.5
+ 0.00
0.4
x ln
LED INDICATION
ON
xlr
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
TRIP TEST BUTTON
0.2
0.1
x lr
lr
MENU NAVIGATION
BUTTONS
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
s
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
INSTANTANEOUS
AND SHORT TIME
PROTECTION
LONG TIME
PROTECTION
USB
NEUTRAL PROTECTION
31
Protection unit
2. Setting protection levels
Set the levels of protection by turning rotary switches with a flat screwdriver.
32
Protection unit
Ground fault protection
(only for item 0 281 66
and 0 281 68)
Setting of current (9 steps)
Ig=0.2-0.3-0.4-0.5-0.6-0.7-0.8-1
&times;In-OFF
Setting of time delay (@12&times;Ig)
(4+4 steps)
tg=0.1-0.2-0.5-1s(t=const)
tg=1-0.5-0.2-0.1s(I t=const)
0 281 66
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
tg
0.5
0.2
0.1
lg
Example:
Ir =(0.4+0.06)&times;In= 0.46 In
OK
OK
test
tsd l2t=k@12lr
C
1 1 66
0.5
0 281
0.5
0.2
OK
0.1
0.2
0.1
test
s
tsd l2t=k@12lr
1 1 0.5
tr MEM-OFF
0.5
0.2
30 20 0.1
0.2 30
20
10
0.1
test
10
5
s
5 2
tsd
l t=k@12lr
@6I
r s
1 0.5
tr 1 MEM-OFF
0.530 30 200.2
0.1
20
0.2
10
10
5
0.1
tsd
5 l2t=k@12lr
s
@6I
r
1
1
0.5 s
0.5
0.2
tr MEM-OFF
0.2 30 30 20 0.1
20
10
0.1
10
s5
5
@6Ir s
tr
MEM-OFF
test
30 30 20
20
10
10
5
5
@6Ir s
test
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
test
s
tsd l2t=k@12lr
1 1 0.5
tr MEM-OFF
0.5
0.2
30 20 0.1
0.2 30
20
10
0.1
test
10
5
s
5 2
tsd
l t=k@12lr
@6I
r s
1 0.5
tr 1 MEM-OFF
0.530 30 200.2
0.1
20
0.2
10
10
5
0.1
tsd
5 l2t=k@12lr
s
r s
1 0.5
1 @6I
0.5
0.2
tr MEM-OFF
0.2 30 30 20 0.1
20
10
0.1
10
s5
5
@6Ir s
tr MEM-OFF
30 30 20
test
20
10
10
5
5
@6Ir s
C
0 281 66
C
0 281 66
C
0 281 66
OK
C
0 281 66
OK
C
0 281 66
OK
*“Fixed instantaneous short
time protection=Isf=Icw@415V”
C
0 281 66
OK
If Ii&lt;Isd, then instantaneous setting
prevails against the magnetic one.
C
0 281 66
OK
Short circuit protection
Setting of current (9 steps)
Isd=1.5-2-2.5-3-4-5-6-8-10xIr
test
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
test
s
tsd l2t=k@12lr
1 1 0.5
tr MEM-OFF
0.5
0.2
30 20 0.1
0.2 30
20
10
0.1
test
10
5
s
5 2
tsd
l t=k@12lr
@6I
r s
1 0.5
tr 1 MEM-OFF
0.530 30 200.2
0.1
20
0.2
10
10
5
0.1
tsd
5 l2t=k@12lr
s
r s
1 0.5
1 @6I
0.5
0.2
tr MEM-OFF
0.2 30 30 20 0.1
20
10
0.1
10
s5
5
@6Ir s
tr MEM-OFF
30
20
30
test
20
10
10
5
5
@6Ir s
0 281 66
OK
MEM OFF = thermal memory off
MEM ON = thermal memory on
0 281 66
0 281 66
OK
Setting of time delay (@6Ir)
(4+4 steps)
tr=5-10-20-30s (MEM ON)
tr=30-20-10-5s (MEM OFF)
test
0.2
0.1
tg
1 1 0.5
0.5 0.6 0.7
lsd
li0.4
0.5
0.8
0.2
8 10
6
1
0.2 3 4 5 0.1
0.3
2.5
6
12
0.24
0.1
OFF
8
2
15
3
10
lcw
2
1.5
lg
tg
x ln
x
lsd 1 1 0.5 lr
li 0.5 0.6 0.7
0.5 4 0.2
0.4 6 8 100.8
5
3
lr0.34
2.5
60.1
0.2
121
0.08
0.8 0.915
0.2
0.1
20.06 0.18
3 0.7
OFF
0.04
0.62
10
lcw
1.5
lg
tg
0.02
0.5
0.6 x ln
1 1 0.5x lr
+ 0.00
0.40.5 0.7
0.5
0.8
0.2
lsd
li0.4
0.1
0.2 3 4 5x ln
lr0.3 6 8 10 1
2.5
0.240.7 0.8 0.912
0.10.060.080.16
OFF
N2
MAN
8
15 AUT
0.04
3
0.6
10
lcw
100%
2
0.02
1.5
0.5ON
xlr
x ln + 0.00
x lr
lsd
li0.4
50%
6 8 l&gt;.90
10
3 4 5x ln
OFF
2.5
6
12
lr 4
l&gt;1.05
3 0.7 0.8
N20.060.080.18
0.915 AUT
MAN
10
0.04
lcw
0.62
1.5
100%
xlr
0.02
0.5ON
x ln
x lr
+ 50%
0.4
0.00
l&gt;.90
x
OFF
ln
lr
l&gt;1.05
0.08
lg0.7 0.8 0.9
tg0.06 0.1
0.04
0.6 0.6
N 1 1
AUT
0.5
0.7
0.5 MAN
0.02
0.5
0.5
0.8
100%
0.4ON
0.2
x
lr
0.4
1 + 0.00
0.2
0.1
0.3
50%
0.2
x ln
0.1
OFF
l&gt;.90
OFF
l&gt;1.05
lg MAN
Ntg
AUT
1 1 0.5
0.5 0.6 0.7
100%
lsd
li0.4ON
0.5
0.8
xlr
0.2
8 10
1
0.2 3 4 5 0.1
0.3 6
50%
2.5
6
12
0.24
0.1
OFF
l&gt;.90
OFF
8
2
15
3
l&gt;1.05
10
lcw
2
1.5
lg
tg
x ln
x
lsd 1 1 0.5 lr
li 0.5 0.6 0.7
0.5 4 0.2
0.4 6 8 100.8
5
3
lr0.34
2.5
0.2
60.1
121
0.08
0.8 0.915
0.2
0.1
20.06 0.18
3 0.7
OFF
0.04
0.62
10
lcw
1.5
lg
tg
0.02
0.5
1
0.6
x ln +
1 0.5x lr
0.40.5 0.7
0.00
0.5
0.8
0.2
lsd
li0.4
x
0.2 3 4 5 ln
0.1
lr0.3 6 8 10 1
2.5
0.240.7 0.8 0.912
0.10.060.080.16
OFF
N2
MAN
AUT
8
15
0.04
3
0.6
10
lcw
100%
2
0.02
1.5
0.5ON
xlr
x ln + 0.00
x lr
lsd
li0.4
50%
8
4
x
5 ln
6
10
3
l&gt;.90
OFF
2.5
6
12
lr 4
l&gt;1.05
3 0.7 0.8
N20.060.080.18
0.915
MAN
AUT
10
0.04
lcw
0.62
1.5
100%
x
lr
0.02
0.5ON
x ln
x lr
+ 50%
0.4
0.00
l&gt;.90
x ln
OFF
lrlg
tg
0.08
0.8 l&gt;1.05
0.06
0.9
0.7
0.1
1 1 0.5
0.5 0.6 0.7
0.04
0.6
N0.5
AUT
0.8
0.4 MAN
0.2
0.02
0.5
100%
1lr
0.2
0.1
0.3ON
x
0.4
0.2
0.1
OFF+ 0.00
50%
x ln
lg
tg
l&gt;.90
OFF
1 1 0.5
0.7
0.5 0.6 l&gt;1.05
N
AUT
lsd
li0.4 MAN
0.5
0.8
0.2
100%
6 8 10x1lr
0.2 3 4 5 0.1
0.3ON
2.5
6
12
0.24
0.1
OFF
50%
8
2
15
3
l&gt;.90
10
OFF
lcw
2
1.5
lg
tg
l&gt;1.05
x ln
x
lsd 1 1 0.5 lr
li 0.5 0.6 0.7
0.5 4 0.2
0.4 6 8 100.8
5
3
lr0.34
2.5
0.2
60.1
121
0.08
0.8 0.915
0.2
0.1
20.06 0.18
3 0.7
OFF
0.04
0.62
10
lcw
1.5
lg
tg
0.02
0.5
1 0.5x lr
0.6 0.7
x
1
ln
0.5
+ 0.00
0.4
0.5
0.8
0.2
lsd
li0.4
x ln
8
4
1
0.2
0.3
5 0.1
10
3
lr 6
2.5
0.240.7 0.8 0.912
0.10.060.080.16
OFF
N
8
2
15
0.04
3
0.6
10
lcw
100%
2
0.02
1.5
0.5ON
xlr
x ln + 0.00
x lr
lsd
li0.4
50%
10
6 8 l&gt;.90
3 4 5x ln
OFF
2.5
6
12
lr 4
l&gt;1.05
3 0.7 0.8 0.915
N20.060.080.18
10
0.04
lcw
0.62
1.5
100%
xlr
0.02
0.5ON
x ln
x lr
+ 50%
0.4
0.00
l&gt;.90
x ln
OFF
lr
l&gt;1.05
lg0.7 0.8 0.9
tg0.060.080.1
0.04
0.6 0.6
N 1 1 0.5
0.5 0.7
0.02
0.5
0.5
0.8
0.4
100%
0.2
xlr +
ON
0.4
0.00
1
0.2
0.1
0.3
0.2
0.1
x ln
OFF 50%
l&gt;.90
OFF
l&gt;1.05
lg
tg
N
1 1 0.5
0.5 0.6 0.7
100%
lsd
li0.4
0.5
x0.8
lr
ON
0.2
8 10
0.2 3 4 5 0.1
1
0.3 6
50%
2.5
6
12
4
0.2
0.1
OFF
l&gt;.90
8
OFF
2
15
3
l&gt;1.05
10
lcw
2
1.5
lg
tg
x ln
x
lsd 1 1 0.5 lr
li 0.5 0.6 0.7
0.5 4 0.2
0.4 6 8 100.8
5
3
lr0.34
2.5
60.1
0.2
121
0.08
0.8 0.915
0.2
0.1
20.06 0.18
3 0.7
OFF
0.04
0.62
10
lcw
1.5
lg
tg
0.02
0.5
0.6 x ln
1 1 0.5x lr
+ 0.00
0.40.5 0.7
0.5
0.8
0.2
lsd
li0.4
0.2 3 4 5x ln
0.1
lr0.3 6 8 10 1
2.5
0.240.7 0.8 0.912
0.10.060.080.16
OFF
N2
8
15
0.04
3
0.6
10
lcw
100%
2
0.02
1.5
0.5ON
xlr
x ln + 0.00
x lr
lsd
li0.4
50%
6 8 l&gt;.90
10
3 4 5x ln
OFF
2.5
6
12
lr 4
l&gt;1.05
3 0.7 0.8 0.915
N20.060.080.18
10
0.04
lcw
0.62
1.5
100%
xlr
0.02
0.5ON
x ln
x lr
+ 50%
0.4
0.00
l&gt;.90
x ln
OFF
lr
0.060.080.1
0.9
0.7 0.8 l&gt;1.05
0.04
0.6
N
0.02
0.5
100%
xlr +
ON
0.4
0.00
50%
x ln
l&gt;.90
OFF
l&gt;1.05
N
100%
xlr
ON
OK
Long time protection
Setting of current (2x6 steps)
Ir=0,4&divide;1&times;In
With 2 switches
(0,4&divide;0,9, steps of 0,1
0,0&divide;0,1, steps of 0,02)
1 1 0.5
OK
l&gt;.90
l&gt;1.05
C
C
test
C
tsd l t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
test
s
tsd l2t=k@12lr
1 1 0.5
tr MEM-OFF
0.5
0.2
30 20 0.1
0.2 30
20
10
0.1
test
10
5
s
5 2
tsd
l t=k@12lr
@6I
r s
1 0.5
tr 1 MEM-OFF
0.530 30 200.2
0.1
20
0.2
10
10
5
0.1
tsd
5 l2t=k@12lr
s
r s
1 0.5
1 @6I
0.5
0.2
tr MEM-OFF
0.2 30 30 20 0.1
20
10
0.1
10
s5
5
@6Ir s
tr MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
2
C
50%
OFF
33
Protection unit
OK
Setting of time delay
(4+4 steps)
tsd=0.1-0.2-0.5-1s (t=const)
tsd=1-0.5-0.2-0.1s (i t=const)
C
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
lg
0.6
lg 0.5 0.7
li0.4 0.6 0.8
0.7 1
0.3 0.5
6 8 100.8
0.4
0.24 MAN
12
OFF
1
0.3
15
3
0.2
OFF
lcw
2
OK
OK
tg
0.5
0.2
0.1
tg
1 1 0.5
test
0.2
0.1
1 0.5
tg 1
0.5
0.2
lsd
1 1 0.5 0.1
0.2
0.5 3 4 5 0.2
AUT
2.5
6
0.1
0.1
0.22
8
0.1
10
1.5
x ln
x lr
lsd
6 8 10
3 4 5
AUT
lsd
li 4 MAN
2.5
6
12
lr
8
4
5
10 15
3 0.08 8
20.06
MAN
AUT
3 0.76 0.8
0.9
0.16
2.5
12
4
10
lcw
0.04
0.62
1.5
8
2
15
3
0.02
0.5
x
x
ln
lr
10
lcw
2
1.5
+ 0.00
0.4
x ln
x lr
x ln
lr
0.060.080.1
0.7 0.8 0.9
lr0.6
0.04
N
0.8 0.9
0.060.080.1
0.02
0.50.7
100%
0.04
0.6ON
xlr +
0.4
0.00
0.02
0.5
50%
x ln
+ 0.00
0.4
l&gt;.90
OFF
x ln
l&gt;1.05
N
100%
N
xlr
ON
li
xlr
l&gt;.90
l&gt;1.05
l&gt;.90
l&gt;1.05
ON
test
test 2
tsd
l t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
tsd l2t=k@12lr
s
1
0.5
tsd1 l2t=k@12lr
0.5
0.2
tr MEM-OFF
1 0.50.1
1 30
0.2 30
200.2
0.5
20
10
0.1
0.1
0.2
10
s5
0.1
5
s
@6I
r
s
tr MEM-OFF
30 30 20
tr20 MEM-OFF
10
10 30 30 20 5
20
10
5
10
5
@6Ir s
5
@6Ir s
0 281 66
0 281 66
0 281 66
100%
50%
OFF
50%
OFF
OK
C
MAN
Instantaneous short circuit
protection
Setting of current (9 steps)
Ii=2-3-4-6-8-10-12-15x In or Icw
At setting &quot;Icw&quot;, Ii protection gets
disabled increasing the selectivity.
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2 MAN
OFF
lg MAN
0.6
lg 0.5 0.7
li0.4 0.6 0.8
0.7 1
0.3 0.5
6 8 100.8
0.4
0.24
12
OFF
1
0.3
15
3
0.2
OFF
lcw
2
OK
OK
Neutral protection
Setting of current (3 steps)
N=OFF-50%-100%
Protection against over temperature
(not adjustable) t &gt;95&deg;C
*“Fixed instantaneous short
time protection=Isf=Icw@ 415V”
tg
1 1 0.5
0.5
0.2
AUT
0.1
AUT
tg
test
0.2
0.1
xlr
l&gt;.90
l&gt;1.05
l&gt;.90
l&gt;1.05
test
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
tsd l2t=k@12lr
s
1
0.5
tsd1 l2t=k@12lr
0.5
0.2
tr MEM-OFF
1 0.50.1
1 30
0.2 30
200.2
0.5
20
10
0.1
0.1
0.2
10
s5
0.1
5
s
@6I
r
s
tr MEM-OFF
30 30 20
tr20 MEM-OFF
10
10 30 30 20 5
20
10
5
10
5
@6Ir s
5
@6Ir s
0 281 66
0 281 66
100%
50%
OFF
50%
OFF
OK
C
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
lg
0.6
lg 0.5 0.7
li0.4 0.6 0.8
0.7 1
0.3 0.5
6 8 100.8
0.4
0.24
12
OFF
1
0.3
15
3
0.2
OFF
lcw
2
OK
OK
x ln
li
C
C
0 281
66
test
1 0.5
tg 1
0.5
0.2
lsd
1 1 0.5 0.1
0.2
0.5 3 4 5 0.2
2.5
6
0.1
0.22
0.1
8
0.1
10
1.5
x ln
x lr
lsd
6 8 10
3 4 5
lsd
li 4
2.5
6
12
lr
8
4
5
10 15
3 0.08 8
20.06
3 0.76 0.8 0.9
0.16
2.5
12
4
10
lcw
0.04
0.62
1.5
8
2
15
3
0.02
0.5
x
x
ln
lr
10
lcw
2
1.5
+ 0.00
0.4
x ln
x lr
x ln
lr
0.060.080.1
0.7 0.8 0.9
lr0.6
0.04
N
0.8 0.9
0.060.080.1
0.02
0.50.7
100%
0.04
0.6ON
xlr +
0.4
0.00
0.02
0.5
50%
x ln
+ 0.00
0.4
l&gt;.90
OFF
x ln
l&gt;1.05
N
100%
N
xlr
ON
tg
0.5
0.2
0.1
tg
1 1 0.5
test
0.2
0.1
1 0.5
tg 1
0.5
0.2
lsd
1 1 0.5 0.1
0.2
0.5 3 4 5 0.2
2.5
6
0.1
0.1
0.22
8
0.1
10
1.5
lsd
x lr
6 8 10
3 4 5
lsd
li 4
2.5
6
12
lr
8 10 15
4 5 8
3 0.08
20.06
3 0.76 0.8 0.9
0.16
2.5
12
4
10
lcw
0.04
0.62
1.5
8
2
15
3
0.02
0.5
x ln
x10
lr
lcw
2
1.5
+ 0.00
0.4
x ln
x lr
x ln
lr
0.060.080.1
0.7 0.8 0.9
lr0.6
0.04
N
0.8 0.9
0.060.080.1
0.02
0.50.7
100%
0.6ON
xlr + 0.04
0.4
0.00
0.02
0.5
50%
x ln
+ 0.00
0.4
l&gt;.90
OFF
x ln
l&gt;1.05
N
100%
N
xlr
ON
ON
34
AUT
li
ON
C
C
xlr
l&gt;.90
l&gt;1.05
l&gt;.90
l&gt;1.05
100%
50%
OFF
50%
OFF
C
C
test
test 2
tsd
l t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
2
tsd l t=k@12lr
s
0.5
tsd1 l21t=k@12lr
0.5
0.2
tr MEM-OFF
1 0.50.1
1 30
0.2 30
200.2
0.5
20
10
0.1
0.1
0.2
10
s5
0.1
5
@6Ir ss
tr MEM-OFF
30 30 20
tr20 MEM-OFF
10
10 30 30 20 5
20
10
5
10
5
@6Ir s
5
@6Ir s
NEUTRAL PROTECTION
Position
Protection
OFF
No protected
50%
Protected at 50% Ir-Isd-Ii
100%
Protected at Ir-Isd-Ii
Protection unit
3. Signaling of protection unit state
4
3
2
2.5
2
1.5
12
15
lcw
6
0.5
4 8 12
0.2
15
3 10
0.1
lcw
2
x lr
x ln
x ln
2.50.2
2 0.1
1.5
s
6
8
10
x lr
tr
MEM-OFF
lr
0.060.08
0.7 0.8 0.9
0.10.8 0.9 30 30 20
0.060.080.1
0.7
20
0.04
0.6
0.0410
0.6
0.02
10
0.5
0.02 5
0.5
+ 0.00
5
0.4
+ 0.00
MAN 0.4
AUT
@6I
r s AUT
x ln
MAN
x ln
lr
LED 2
LED 1
xlr
ON
l&gt;.90
l&gt;1.05
N
100%
50%
OFF
xlr
ON
0.5
0.2
0.1
0.2
0.1
s
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
N
100%
50%
l&gt;.90 0 281
OFF 66
l&gt;1.05
0 281 66
The state of Protection Unit is signaled through LED 1 and 2, according to the table:
PROTECTION
LED1
LED2
Off
Off
Inactive
Active: (I 100A for DMX-SP/250A
for DMX3-1600 or supplied)
Green
Active: (overload prealarm I &gt; 0.9Ir)
Green
Fix
Red
Fix
Active: (overload alarm I &gt; 1.05Ir)
Green
Fix
Red
Flashing
Active: (over temperature alarm T &gt;75&deg;C)
Green
Flashing
Red
Flashing
Off
An alarm is more important than a prealarm. The overload is more important than over temperature.
LED 3
Failure by ground fault
(only for item 0 281 66
and 0 281 68)
LED 4
Failure by short circuit/
instantaneous short circuit
LED 5
Failure by overload/
over temperature
In case of breaker tripping
the LED corresponding to
the protection that caused
the tripping remains lighted,
signalling the corresponding
fault has occured. (if external
supply is present)
OK
lg
0.6 0.7
LED0.5 3
0.4
0.3
0.2
li
15
lcw
x ln
lr
0.8 0.9
0.7 5
LED
0.6
0.5
0.4
tg
0.8
1
OFF
8 10
64
LED
12
4
3
2
C
OK
0.5
0.2
0.1
lsd
2.5
2
1.5
lg
1 1 0.5
test
0.5 0.6 0.7
0.8
0.40.2
0.1
1
0.3
0.2
OFF
C
tg
0.5
0.2
0.1
1 1 0.5
test
0.2
0.1
tsd l t=k@12lr
lsd
1 1 0.5
8
10
3 4 5
6 6 0.5
0.2
2.5
6
12
48
0.1
0.2
8
2
15
3 10
0.1
10
lcw
2
1.5
x lr
s
x ln
x lr
2
li
3 4 5
tr MEM-OFF
0.060.08lr0.1 0.8 30 30 20
0.08
0.9
0.7
20
0.04
100.06 0.1
0.04
0.6
0.02
10
5
0.02
0.5
+ 0.00
5
+
0.4
@6Ir0.00
s
x ln
x ln
tsd l2t=k@12lr
1 1 0.5
0.5
0.2
0.1
0.2
0.1
s
tr
MEM-OFF
30 30 20
20
10
10
5
5
@6Ir s
35
Protection unit
4. Test button
In order to verify correct functioning of circuit breaker and protection unit it’s possible to use test button.
Pushing it for more than two seconds makes the breaker trip.
Tripping sequence is:
1. push “T” button for at least two seconds;
2. all LEDs turn ON for one second (ON LED in orange, others in red);
3. circuit breaker trips and all LEDs switch off, apart ON led, that switches from orange to green.
36
Protection unit
5. Visualization and use of menus
Push OK to turn the display on
OK
C
lg
0.5 0.6 0.7
0.8
0.4
1
0.3
0.2
OFF
tg
0.5
0.2
0.1
1 1 0.5
test
0.2
0.1
Using OK ▲▼ button to navigate through the menu.
It's possible to visualize 3 type of pages.
• Menu pages: there are several functional
pages.
• Default pages: show the state of the breaker
in all the allowed states (closed-normal, closedalarm tripped, open). It's shown every time that
protection unit is turned on and it's automatically
refreshed. If after an established time, there is no
activity on the 4 navigation buttons, it returns to
home page from this page. It's possible to reach
the Menu Page only by pushing OK button.
(1) push &quot;OK&quot; button:
store the new parameter, go to menu pages or
upper level.
(2) push &quot;C&quot; button:
do not save the new parameter, turn back to up
level.
(3) after 20min:
do not save the new parameter, turn back home.
closed-normal
N:
1550A
L1:
1600A
L2:
1605A
L3:
1598A
closed-alarm
tripped
alarm
over temperature
overload tripping
phase
L1
5.42 S
9648 A
In=
1586A
I1=
9648A
1610A
I2=
I3=
1598A
T &gt;75&deg;C
OK
open
0A
L2:
0A
L3:
0A
N:
0A
C
protections
current
protections
OK
state
t &gt; 20m
L1:
modules
system para
archives
C
C
37
Protection unit
6. Default page
Display screen has eight rows to show contents.
Circuit breaker has four kinds of status:
1. Circuit breaker switched ON: (no pre-alarm or alarm signal)
Protection unit display data are shown like below:
L1:
1600A
L2:
1605A
L3:
1598A
N:
550A
In this condition (closed breaker and no alarm), it's possible to enter main page by pushing OK button.
L1,L2 and L3 are always measured; neutral only if it is present.
38
Protection unit
2. Circuit breaker switched ON with an active alarm:
when circuit breaker is on alarm state, protection unit display data are shown like below:
alarm
over temperature
T &gt;75&deg;C
alarm
over temperature
T &gt;75&deg;C
In this status, it's possible to access main page by pushing OK button.
3. Circuit breaker tripped after a fault:
protection unit display data are shown like below:
overload tripping
phase
L1
5.42 S
9648tripping
A
overload
I n=phase 1586A
L1
I1= 5.429648A
S
I2= 96481610A
A
I3=
1598A
I n=
1586A
I1=
9648A
I2=
1610A
I3=
1598A
The first display row shows the fault type. The second display row shows fault page. If there are several faults or same fault on different phases, it's possible to enter main page by pushing OK button
and check the records in the fault history.
39
Protection unit
4. Circuit breaker switched OFF:
protection unit display data are shown like below:
L1:
0A
L2:
0A
L3:
0A
N:
0A
From this page is possible to reach the main page pushing one time the OK button.
7. Setting of current visualization
Every current on circuit breaker can be shown in two different ways: with an histogram or with a
numeric value (both of them calculated with the same accuracy).
Maximum number of digits, for numeric value, is 4, so for values under 9999, current is expressed in
Amperes, while for values between 10000 and 99999, currents are expressed in kiloAmperes, with
the approximation to nearest lower decimal value:
• Example 1: 1450 Amperes → in this case display will show “1450 A”
• Example 2: 12541 Amperes → in this case display will show “12.5 kA”
Histogram can show values between 0 and 1.2 x Ithreshold, where Ithreshold is threshold current for thermal
protection (Ir). Each histogram has up to 48 graphical points, each one corresponding to 2% of total
amount, with approximation to nearest lower decimal value:
• Example: I r = 1000A ➔ each graphical point corresponds to 20A. If, in this case, I1 = 18A and
I 2 = 565A, on histogram it will be no graphical points for I1 and 28 graphical points for I2.
40
Protection unit
8. Menu pages
protections
protections
currents
state
existing alarm
measures
currents
temperature
OK
OK
temperature
OK
instant.
instant.
OK
I1=
I2=
I3=
I N=
Ig=
I1=
I2=
I3=0 A
I N=0 A
Ig=0 A
0A
0A
0A
0A
0A
0A
0A
{
{
{
{
{
{
{{
state
modules
system para.
archives
state
state
modules
OK
systemexisting
para. alarm
archives
measures
OK
level 1
level 1
level 3
level 2
level 3
level 2
level 4
level 4
VISUALIZATION:
Display has four levels of nested data. It’s possible to navigate with ▼ and ▲ buttons. The selected
item is shown with a square around the text. To enter to the submenu, press OK button.
SETTING:
If page allows to set a parameter (ex: phase sequence, ModBus node address, etc...), value can be
changed with ▼ and ▲ buttons. To confirm, push OK button (just after this operation setting will be
operative).
Modbus
com. address
3
ModbusSpeed
com. address 9.6k
3
Speed
9.6k
41
Protection unit
9. Accessories
0 281 72 External Auxiliary Power Supply
The device has a 230V AC input and a maximum power consumption of 25VA. The power supply has
4 independent outputs suitable to supply up to 4 protection units simultaneously. Mounting chances:
standard 35mm DIN rail or direct mounting.
Here below front face and dimensions:
INPUT
OUTPUT
39
8
2.5
45
1.5
4
35.5
82
90
24.5
72/144
4.5
53
7.5
60.5/121
2.5
42
Note: DMX3 1600 only: For a correct working of the protection unit, it is mandatory to guarantee
the protection unit always active.
Two possible options:
1- External power supply (028172), to be connected to a safety source (UPS, for instance).
2- Direct power supply 110-230Vac 50/60Hz (terminal blocks PU1-PU2), to be connected to a
safety source or upstream line.
For direct power supply foresee a protection by fuse (50mA type gR)
Protection unit
0 281 70 (factory assembled)
Modbus RS485 Communication option
With communication option it's possible to connect circuit breaker to a ModBus RS485 supervision system.
0 281 99 (factory assembled)
Programmable contacts option
With this option it’s possible to manage external devices for signalization and control. It’s connected
to protection unit, that allows its setup, through the terminals in the top part of the breaker.
connection terminals:
Please refer to breaker installation manual.
Activation:
The output connections for programmable contacts can be activated modlfying the protection unit
settings,navigating in menu as specified below:
Step 1: Modules ➔ Relay Settings ➔ Function Settings ➔ choose Relay 1 or 2 in contact list ➔
select the options in the function list (Please refer to ch.10. menu navigation)
Step 2: Modules ➔ Relay Settings ➔ Work Mode ➔ choose Relay 1 or 2 in contact list ➔ select
the options (NO/NC - Stable/Timed) in the function list
Options
NO level
NC level
NO pulse (1&divide;360s)
NC pulse (1&divide;360s)
Technical characteristics:
Rated operating voltage Vn
(Vac): 230V 5A MAX
(Vac): 110V 0.5A MAX
43
Protection unit
0 281 71 for DMX3 1600
6 696 05 for DMX-SP 2500
External Neutral current sensor for earth fault and neutral protection
It's possible to use it with 3 poles breakers and it's installed on the neutral busbar, in order to provide
the following protections, but guarantee the continuity on Neutral:
- neutral protection (with all the protection units versions);
- ground protection (only on versions 0 281 66 and 0 281 68).
44
Protection unit
10. Logical selectivity
The feature logical selectivity is not supported by PU versions ref. 0 281 67 / 0 281 68.
For the General indications and requirements about the function Logical Selectivity refer to standard
Logical Selectivity Guide.
Connection terminals:
Please refer to breaker installation manual.
Activation:
The input/output connections for logical selectivity can be activated by modifying the protection unit
settings navigating in menu as specified below:
Setting ➔ Relay Settings ➔ Function Settings ➔ choose &quot;SEL IN&quot; in contact list ➔ select &quot;ON&quot; in the
function list (not required for the last downstream selectivity level - D)
Setting ➔ Relay Settings ➔ Function Settings ➔ choose ”SEL OUT&quot; in contact list ➔ select &quot;ON&quot; in
the function list (required for all selectivity levels - A/B/C/D)
Wiring and Supply:
Please remind the protection unit always needs to be supplied by a specific external module
ref. 0 281 72 in order to provide a correct working of logic selectivity.
In addition,the input of the logic selectivity (DI) also needs to be supplied at 24V DC voltage on its
terminals. In detail,the positive polarity of supplier +( 24V) must be connected to terminal H11.
This supply can be provided by the same module ref. 0 281 72 which supplies the PU.
On the contrary, the output of the logic selectivity (DO) doesn't require an additional supply.
45
Protection unit
Wiring diagram:
1#1#
DO
DO
DIDI
DCDC
24V
24V
2#2#
DO
DO
3#3#
DIDI
DO
DO
4#4#
DIDI
DO
DO
DIDI
Here below summarized the main selectivity levels [ A / C / D ] and the ralating specific prescriptions
in order to communicate properly.
AA
DMX&sup3;
DMX&sup3;
IN
L max = 30 m
L max = 30 m
IN
OUT
OUT
IN
L max = 30 m
L max = 30 m
IN
OUT
OUT
2500
2500
1600
1600
OUT
OUT
DMX&sup3;
DMX&sup3;
6300
6300
4000
4000
SEL + +
SEL
IN
IN
OUT
OUT
OUT
OUT
DMX&sup3;
DMX&sup3;
1600
1600
SEL + +
SEL
IN
IN
OUT
OUT
ON
ON
SEL
SEL
IN
IN
ON
ON
DMX&sup3;
DMX&sup3;
4000
4000
2500
2500
1600
1600
OUT
OUT
DMX&sup3;
DMX&sup3;
DPX
1600
DPX 1600
DPX 630
DPX 630
DPX 250
DPX 250
DPX&sup3;
DPX&sup3;
SEL
SEL
IN
IN
IN
ON
ON
OUT
OUT
SEL
SEL
IN
IN
DD
DD
DMX&sup3;
DMX&sup3;
DPX
1600
DPX 1600
DPX 630
DPX 630
DPX 250
DPX 250
DPX&sup3;
DPX&sup3;
IN
CC
CC
DMX&sup3;
DMX&sup3;
1600
1600
OFF
OFF
SEL + +
SEL
OUT
OUT
SEL + +
SEL
IN
IN
DMX&sup3;
DMX&sup3;
1600
1600
OUT
OUT
SEL + +
SEL
IN
IN
ON
ON
OFF
OFF
DPX 630
DPX 630
DPX 250
DPX 250
DPX&sup3;
DPX&sup3;
OUT
OUT
SEL + +
SEL
IN
IN
Note:
There is no risk or restriction of the use of the logical selectivity on the DMX3 1600/DMX-SP with other
DPX/DPX3/DMX3 devices (where the 24V DC supply is not required).
46
Protection unit
11. Menu navigation
L1:
OA
L2:
OA
L3:
OA
N:
OA
OK
1/6
protections
state
modules
system para.
archives
1/1
1/5
(current
protection)
OK
(curren t
protection)
OK
long
time
short time
instant.
long time
OK
IR=1600A
(100.0%In )
to modify by knob
long time
TR=C3
continue to page 48
state 2/6
( 20s @6.0IR
thermal-mem.
on )
to modify by knob
2/5
(curren t
protection)
long time
t=k
OK
short time
instant.
I=12800A
( 8.0&times; IR
T=0.5s )
to modify by knob
3/5
(curren t
protection)
long time
short time
instant.
instant.
OK
I=24000A
( 15.0&times;In)
to modify by knob
4/5
neutral protec.
ground protec.
neutral protec.
OK
OFF
to modify by knob
5/5
neutral protec.
ground
ground protec.
protec.
OK
OFF
to modify by knob
only for versions with ground protection
47
Protection unit
2/6
state
protections
modules
system para.
archives
1/3
state
OK
existing alarm
measures
state
close
OK
2/3
state
existing alarm
no alarm
existing alarm
OK
measures
3/3
1/2
measures
instant.
currents
state
existing alarm
temperature
OK
OK
I1=
I2=
0A
0A
I3=
0A
I N=
0A
Ig=
0A
continue to page 49
modules 3 /6
2/2
temperature
currents
temperature
OK
48
T=35℃
Protection unit
3/6
protections
state
modules
system para.
archives
1/2
Modbus
com. setup
com. address
relay settings
OK
OK
3
OK
speed
9.6k
modify/store communication
address baud rate
1/3
2/2
com. setup
relay settings
relay settings
func. settings
work mode
relay status
OK
func. settings
OK
relay 1
alarm-generic
OK
modify/store
function setting
2/3
continue to page 50
system parameter 4/6
relay settings
func. settings
work mode
relay status
work mode
relay 1
OK
N/O
level
OK
modify/store work mode
3/3
relay settings
func. settings
work mode
relay status
OK
relay 1
relay 2
relay 3
SEL-IN
Options
Disable
Alarm genetic
Fauit generic
Overload &gt; 1.05 lr
Long time trip
Short time trip
Instantaneous trip
Ground trip
Neutral trip
Closed
Open
Fixed instantaneous trip
Overtemp &gt; 75&deg;C
49
Protection unit
1/4
4/6
protections
state
modules
system para.
archives
OK
circuit breaker
com. protocol
date / time
language
OK
rated curren t
1600A
N&deg; of poles
4P
phase sequence
L1, L2, L3, N
2/4
circuit breaker
com. protocol
date / time
language
com. protocol
OK
Modbus
3/4
circuit breaker
com. protocol
date / time
language
date
OK
2015/06/08
time
14:30:30
OK
set date and time
4/4
circuit breaker
com. protocol
date / time
language
continue to page 51
archives 5/6
50
OK
language
language
language
English
English
French
OK
OK
store
Protection unit
5/6
1/3
protections
state
modules
system para.
archives
position histor y
faults history
alarm history
OK
position histor y
local close
2015/06/08
fault open
2015/06/08
local close
2015/06/08
10 times position histor y
2/3
position history
faults history
alarm history
OK
faults histor y
over-load trip
2015/06/08
over-load trip
2015/06/08
over-load trip
2015/06/08
10 times trip history
3/3
position histor y
faults history
alarm history
OK
alarm histor y
over-load
pre- alarm
2015/06/08
over-load
10 times alarm histor y
pre-alarm
2015/06/08
over-load
pre-alarm
6/6
information
OK
FW version
P1605, T31H
DMX 3
51
Protection unit
12. Menu structure
LEVEL 1
LEVEL 2
LEVEL 3
LEVEL 4
long time
protections
current
protection
short time
instant.
neutral protec.
ground protec.
state
state
existing alarm
measures
com. set up
currents
instant.
temperature
Modbus com.
address
speed
relay 1
func. settings
modules
relay 2
SEL-OUT
SEL-IN
relay settings
NO/NC/NO impulse/NC impulse
work mode
NO/NC/NO impulse/NC impulse
NO/NC/NO impulse/NC impulse
NO/NC
relay status
circuit breaker
system
parameters
MODBUS
date / time
date - time
position history
archives
faults history
alarm history
information
52
rated current - N&deg; of poles - phase sequence
com. protocol
language
FW version
NO:O, NC:I
English
Other languages
Protection unit
53
Protection unit
54
Protection unit
55
LE08438AB
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