Complies with SNCF, Sichere Trennung recommendations
Conforming to VDE 0106 parts 101
and A1 (project 2/89)
Conforming to VDE 0106
Power connection
Coil connection
Protection against direct finger contact IP 2X
Protection against direct finger contact IP 2X (except
LC1-D40…D80)
“TH”
°C
°C
°C
m
- 60…+ 80
- 5…+ 60
- 40…+ 70, for operation at Uc
3000
± 30° possible, in relation to normal vertical mounting plane
V1
°C
gn
gn
gn
gn
960
10
15
2
4
4
4
3
4
8
15
8
10
8
10
6
15
V
400
2
Product certifications
Separation insulation
Degree of protection
(1)
(front face only)
Protective treatment
Ambient air temperature
around the device
Conforming to IEC 68
Storage
Operation
Permissible
Maximum operating altitude
Operating position
Flame resistance
Without derating
Without derating
Conforming to UL 94
Conforming to IEC 695-2-1
Shock resistance
(2)
1/2 sine wave = 11ms
Contactor open
Contactor closed
Vibration resistance
(2)
5…300 Hz
Contactor open
Contactor closed
(1) Protection ensured for the connection cross-sections shown on the next page and for connection via cable.
(2) In the least favourable direction, without change of contact state (coil supplied at Ue).
Selection:
pages 1/6 to 1/35
2/32
References:
pages 2/6 to 2/9
Dimensions:
pages 2/44 to 2/47
Schemes:
pages 2/48 and 2/49
Schneider Electric
Characteristics
TeSys contactors
Model d
Connections for power and control circuits
Type of contactor
LC1-
D09 & D12 D18
DT20 &
(3P)
DT25
D25
D32 D38 D18
(4P)
DT32…DT60
D40
D50 &
D65
D80 &
D95
D115 & D150
Power circuit connections
Connection via cable
Tightening
Flexible cable
1 conductor
without cable end
2 conductors
Flexible cable
with cable end
1 conductor
2 conductors
mm
2
mm
2
mm
2
mm
2
mm
2
mm
2
Screw clamps
1…4
1…4
1…4
1…2.5
1…4
1…4
N° 2
Ø6
N.m
mm
2
mm
2
–
1.7
2.5
(4: DT25)
2.5
(4: DT25)
1.5…6 1.5…10 2.5…10
1.5…6 1.5…6 2.5…10
1…6
1…4
1…6
1…4
1…10
1.5…6
2-input connector
2.5…16
2.5…16
2.5…10
2.5…10
2.5…16
2.5…16
N° 2
Ø6
–
2.5
–
–
–
(10: DT32…DT60)
–
Screw
clamps
2.5…25
2.5…16
2.5…25
2.5…10
2.5…25
2.5…16
1-input connector 2-input connector
2.5…25 4…50
2.5…16 4…25
2.5…25 4…50
2.5…10 4…16
2.5…25 4…50
2.5…16 4…25
10…120
10…120 + 10…50
10…120
10…120 + 10…50
10…120
10…120 + 10…50
Solid cable
1 conductor
without cable end
2 conductors
Screwdriver
6 sided key
Tightening torque
Connection via spring terminals
1 conductor
Flexible cable
without cable end
2 conductors
Connection via bars or lugs
Bar cross-section
Lug external Ø
Ø of screw
Screwdriver
Phillips head
Ø flat screwdriver
Phillips head
Ø flat screwdriver
1.5…6 1.5…6 1.5…10
1.5…6 1.5…6 2.5…10
N° 2
Ø6
–
1.7
4
4
N° 2
Ø6
–
2.5
4
4
N° 2
Ø6
–
2.5
4
4
–
–
–
–
Ø 6…Ø 8 Ø 6…Ø 8 Ø 6…Ø 8 –
–
5
–
–
–
5
–
–
4
9
–
–
4
12
–
–
2
–
mm
mm
8
M3.5
N° 2
Ø6
N.m
–
1.7
–
8
M3.5
N° 2
Ø6
–
1.7
–
10
M4
N° 2
Ø6
–
2.5
–
10
M4
N° 2
Ø6
–
2.5
–
12
M5
N° 2
Ø6
–
2.5
–
13
M5
N° 2
Ø8
–
6
–
16
M6
N° 3
Ø8
–
6
3 x 16
17
M6
–
Ø8
10
8
5 x 25
25
M8
–
–
13
14
Key for hexagonal headed screw
Tightening torque
Control circuit connections
Connection via cable
(tightening via screw clamps)
Flexible cable
1 conductor
without cable end
2 conductors
Flexible cable
with cable end
1 conductor
2 conductors
mm
2
mm
2
mm
2
mm
2
mm
2
mm
2
1…4
1…4
1…4
1…2.5
1…4
1…4
N° 2
Ø6
1.7
1…4
1…4
1…4
1…4
1…4
1…4
1…4
1…4
1…4
1…2.5
1…4
1…4
N° 2
Ø6
1.7
1…4
1…4
1…2.5
1…2.5
1…4
1…4
N° 2
Ø6
1.2
1…4
1…4
1…2.5
1…2.5
1…4
1…4
N° 2
Ø6
1.2
1…4
1…4
1…2.5
1…2.5
1…4
1…4
N° 2
Ø6
1.2
1…2.5
1…2.5
1…2.5
1…2.5
1…2.5
1…2.5
N° 2
Ø6
1.2
1…4
1…4
1…4
1…2.5 1…2.5 1…2.5
1…4
1…4
N° 2
Ø6
1.7
1…4
1…4
N° 2
Ø6
1.7
1…4
1…4
N° 2
Ø6
1.7
Solid cable
1 conductor
without cable end
2 conductors
Screwdriver
Tightening torque
Connection via spring terminals
Flexible cable
1 conductor
without cable end
2 conductors
Connection via bars or lugs
Lug external Ø
Ø of screw
Screwdriver
Tightening torque
Phillips head
Ø flat screwdriver
Phillips head
Ø flat screwdriver
N.m
mm
2
mm
2
2.5
2.5
2.5
2.5
2.5
2.5
2.5 –
2.5 –
–
–
–
–
–
–
–
–
–
–
mm
mm
(1)
(1)
–
–
8
M3.5
8
M3.5
N° 2
Ø6
1.2
8
M3.5
N° 2
Ø6
1.2
8
M3.5
N° 2
N°6
1.2
–
–
–
–
–
N° 2
–
–
–
–
–
Ø6
N.m
–
–
–
–
–
1.2
(1) Spade connector or cable lug, see connection via cable above.
Selection:
pages 1/6 to 1/35
Schneider Electric
References:
pages 2/6 to 2/9
Dimensions:
pages 2/44 to 2/47
Schemes:
pages 2/48 and 2/49
2/33
Characteristics
TeSys contactors
Model d
Type of contactor
LC1-
D09
DT20
D12
DT25
D18
DT32
D25
DT40
Pole characteristics
Rated operational current
(Ie)
(Ue
≤
440 V)
Rated operational voltage
(Ue)
Frequency limits
Conventional thermal current
(Ith)
Rated making capacity
(440 V)
Rated breaking capacity
(440 V)
Permissible short-time rating
No current flowing for preceding
15 minutes at
θ ≤
40 °C
In AC-3,
θ ≤
60 °C
In AC-1,
θ ≤
60 °C
Up to
Of the operating current
θ ≤
60 °C
Conforming to IEC 947
Conforming to IEC 947
For 1 s
For 10 s
For 1 min
For 10 min
Without thermal overload relay,
fuse gG
With thermal overload relay
Average impedance per pole
Power dissipation per pole
for the above operating currents
At Ith and 50 Hz
AC-3
AC-1
type 1
type 2
A
A
A
A
A
A
A
mΩ
W
W
A
A
V
Hz
A
9
25
690
25…400
25
250
250
210
105
61
30
25
20
20
20
12
25
690
25…400
25
250
250
210
105
61
30
40
25
25
18
32
690
25…400
32
300
300
240
145
84
40
50
35
32
25
40
690
25…400
40
450
450
380
240
120
50
63
40
40
2
Protection by fuse
against short-circuits (U
≤
690 V)
See pages 2/52 and 2/53, for aM or gG fuse ratings
corresponding to the associated thermal overload relay
2.5
0.20
1.56
2.5
0.36
1.56
2.5
0.8
2.5
2
1.25
3.2
a.c. control circuit characteristics
Rated control circuit voltage
(Uc)
Control voltage limits
50 or 60 Hz coils
50/60 Hz coils
50/60 Hz
V
12…690
Operational
Drop-out
Operational
Drop-out
–
–
0.8…1.1 Uc on 50 Hz and
0.85…1.1 Uc on 60 Hz at 60 °C
0.3…0.6 Uc at 60 °C
50 Hz coil
Cos
ϕ
50/60 Hz coil
50 Hz coil
Cos
ϕ
50/60 Hz coil
60 Hz coil
Cos
ϕ
50/60 Hz coil
60 Hz coil
Cos
ϕ
50/60 Hz coil
VA
VA
VA
VA
VA
VA
VA
VA
W
–
0.75
70
–
0.3
7
–
0.75
70
–
0.3
7.5
2…3
12…22
4…19
–
15
Average consumption
at 20 °C and at Uc
"
50 Hz Inrush
Sealed
"
60 Hz Inrush
Sealed
Heat dissipation
Operating time
(3)
Mechanical life
in millions of operating cycles
50/60 Hz
Closing “C”
Opening “O”
50 or 60 Hz coil
50/60 Hz coil on 50 Hz
ms
ms
Maximum operating rate
In operating cycles per hour
3600
at ambient temperature
≤
60 °C
(1) Protection ensured for the connection cross-sections shown on page 2/33 and for connection via cable.
(2) In the least favourable direction, without change of contact state (coil supplied at Ue).
(3) The closing time “C” is measured from the moment the coil supply is switched on to initial contact of the main poles. The opening time “O” is measured from
the moment the coil supply is switched off to the moment the main poles separate.
Selection:
pages 1/6 to 1/35
2/34
References:
pages 2/6 to 2/9
Dimensions:
pages 2/44 to 2/47
Schemes:
pages 2/48 and 2/49
Schneider Electric
D32
DT60
D38
D40
D50
D65
D80
D95
D115
D150
32
50
690
25…400
50
550
550
430
260
138
60
63
63
32
60
690
25…400
60
500
500
430
260
138
60
63
63
38
50
690
25…400
50
550
550
430
310
150
60
63
63
40
60
1000
25…400
60
800
800
720
320
165
72
80
80
50
80
1000
25…400
80
900
900
810
400
208
84
100
100
65
80
1000
25…400
80
1000
1000
900
520
260
110
160
125
80
125
1000
25…400
125
1100
1100
990
640
320
135
200
160
95
125
1000
25…400
125
1100
1100
1100
800
400
135
200
160
115
200
1000
25…400
200
1260
1100
1100
950
550
250
250
200
150
200
1000
25…400
200
1660
1400
1400
1200
580
250
315
250
2
See pages 2/52 and 2/53, for aM or gG fuse ratings corresponding to the associated thermal overload relay
2
2
5
2
2
5
2
3
5
1.5
2.4
5.4
1.5
3.7
9.6
1
4.2
6.4
0.8
5.1
12.5
0.8
7.2
12.5
0.6
7.9
24
0.6
13.5
24
12…690
24…660
24…500
–
–
0.8…1.1 Uc on 50 Hz and
0.85…1.1 Uc on 60 Hz at 60 °C
0.3…0.6 Uc at 60 °C
–
0.75
70
–
0.3
7
–
0.75
70
–
0.3
7.5
2…3
12…22
4…19
–
15
3600
0.85…1.1 Uc at 55 °C
0.3…0.6 Uc at 55 °C
0.8…1.1 Uc on 50 Hz and
0.85…1.1 Uc on 60 Hz at 55 °C
0.3…0.6 Uc at 55 °C
200
0.75
245
20
0.3
26
220
0.75
245
22
0.3
26
6…10
20…26
8…12
16
6
3600
20…26
8…12
16
6
3600
20…26
8…12
16
6
3600
20…35
6…20
10
4
3600
20…35
6…20
10
4
3600
0.85…1.1 Uc at 55 °C
0.3…0.5 Uc at 55 °C
0.8…1.15 Uc on 50/60 Hz at 55 °C
0.3…0.5 Uc at 55 °C
300
0.8
280…350
22
0.3
2…18
300
0.8
280…350
22
0.3
2…18
3…8
20…50
6…20
8
8
2400
–
0.9
280…350
–
0.9
2…18
–
0.9
280…350
–
0.9
2…18
3…4.5
20…35
40…75
–
8
1200
Schneider Electric
2/35
Characteristics
(continued)
TeSys contactors
Model d
d.c. control circuit characteristics
Type of contactor
LC1-
D09…D38
DT20…DT60
$
Conforming to IEC 947-1
Conforming to UL, CSA
Control voltage limits
Operational
Standard coil
Wide range coil
Drop-out
V
V
V
12…440
690
600
0.7…1.25 Uc
at 60 °C
–
0.1…0.25 Uc
at 60 °C
Inrush
Sealed
Average operating time
(1)
at Uc
Closing
“C”
W
W
ms
5.4
5.4
55
0.85…1.1 Uc at 55 °C
0.75…1.2 Uc at 55 °C
0.1…0.3 Uc at 55 °C
22
22
85…110
22
22
95…130
0.75…1.2 Uc
at 55 °C
–
0.15…0.4 Uc
at 55 °C
270 to 365
2.4…5.1
20…35
LC1-
or
LP1-
D40…D65
12…440
LC1
or
LP1-D80
LC1-D115 &
LC1-D150
24…440
Rated control circuit voltage
(Uc)
Rated insulation voltage
2
Average consumption
at 20 °C and at Uc
$
Opening
“O”
ms
20
20…35
20…35
40…75
Note:
The arcing time depends on the circuit switched by the poles. For normal 3-phase applications, the arcing time
is usually less than 10 ms. The load is isolated from the supply after a time equal to the sum of the opening time and
the arcing time.
Time constant
(L/R)
Mechanical life at Uc
Maximum operating rate
at ambient temperature
≤
60 °C
In millions of operating cycles
In operating cycles per hour
ms
28
30
3600
65
20
3600
75
20
3600
25
8
1200
Low consumption control circuit characteristics
Rated insulation voltage
Conforming to EN 60947-1
Conforming to UL, CSA
Maximum voltage
Average consumption
d.c.
at 20 °C and at Uc
Of the control circuit on
$
V
V
690
600
250
Wide range coil
(0.7…1.25 Uc)
Inrush
Sealed
W
W
ms
ms
2.4
2.4
70
25
0.7 to 1.25 Uc
0.1…0.3 Uc
Operating time
(1)
at Uc and at 20 °C
Voltage limits
(θ
≤
60 °C)
of the control circuit
Closing
Opening
Operational
Drop-out
“C”
“O”
Time constant
(L/R)
Mechanical life
In millions of operating cycles
ms
40
30
Maximum operating rate
At ambient temperature
≤
60 °C
ops/h
3600
(1) Operating times depend on the type of contactor electromagnet and its control mode.
The closing time “C” is measured from the moment the coil supply is switched on to initial contact of the main poles. The opening time “O” is measured from the
moment the coil supply is switched off to the moment the main poles separate.
(2) In the least favourable direction, without change of contact state.
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