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| RXM2LB2JD Datasheet, PDF (2/6 Pages) List of Unclassifed Manufacturers – Electromechanical Zelio Relay RXM Optimum miniature plug-in relays | |||
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Characteristics
Electromechanical Zelio Relay
RXM Optimum miniature plug-in relays
General characteristics
Conforming to standards
Product certiï¬cations
Ambient air temperature
Storage
°C
around the device
Operation
°C
Vibration resistance
conforming to
IEC/EN60068-2-6
Operating
Not operating
Degree of protection conforming to IEC/EN 60529
Shock resistance
conforming to
IEC/EN 60068-2-27
Opening
Closing
Protection category
Mounting position
Insulation characteristics
Rated insulation voltage (Ui)
V
Rated impulse withstand voltage (Uimp)
kV
Dielectric strength
Between coil and contact
aV
(rms voltage)
Between poles
aV
Between contacts
aV
Contact characteristics
Relay type
Number and type of contacts
Contact materials
Conventional thermal current For ambient temperature y55 °C A
(Ith)
Rated operational current
Conforming to IEC
N/O
in utilisation categories AC-1 and
N/C
DC-1
Minimum switchable current
mA
Switching voltage
Maximum
V
Minimum
V
Rated load (resistive)
A
Switching capacity
Maximum
A
a VA
cW
Minimum
mW
Maximum operating rate
In operating cycles/hour
No-load
Under load
Utilisation coefï¬cient
Mechanical durability
In millions of operating cycles
Electrical durability
Resistive load
In millions of operating cycles Inductive load
Electrical durability of contacts
For 2 poles relay
For 4 poles relay
e, ROHS, IEC/EN 61810-1 (iss.2)
None
- 40⦠+ 85
- 40⦠+ 55
3 gn (10...50 Hz)
6 gn (10...50 Hz)
IP 40
10 gn
5 gn
RT I
Any
250 (IEC)
3.6 (1.2/50 μs)
2000
2000
1000
RXM 2LBppp
2 C/O
Silver Alloy
5
5
2.5
10
c/a 250
17
5 / 250 VAC
5 / 28 VDC
1250
140
170
18 000
1200
20 %
10
0.1
See curves below
Maximum switching capacity
For 2 poles relay
RXM 4LBppp
4 C/O
Silver Alloy
3
3
1.5
3 / 250 VAC
3 / 28 VDC
750
84
170
For 4 poles relay
107
106
AB
105
0 0,1 0,5 1 1,5 3 5 8
Contact current (A)
107
106
A
B
105
0 0,1 0,5 1 1,5 3 5 8
Contact current (A)
8,0
5,0
3,0
1,0
C
0,5
B
A
D
8,0
5,0
3,0
1,0
0,5
CD
0,1
0 5 10 50
0,1
100 200 500
Contact voltage (V)
0 5 10 50
B
A
100 200 500
Contact voltage (V)
A Inductive load
B Resistive load
Durability (inductive load) = durability (resistive load) x reduction coefï¬cient.
A Inductive load a
B Resistive load a
C Inductive load c
D Resistive load c
1
2
3
4
5
6
7
8
9
10
28212-EN
3
version: 1.1
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