13.2 Replacing the linking element
1. Disengage and remove the module
è
Fig. 11.
2. Disconnect the linking elements by
pulling them apart.
3. Release the lower lock of linking ele
ment from the H-rail.
4. Remove the linking element from the
H-rail.
5. Hang the new linking element into
place
è
Fig. 9.
1
2
2.
3.
2.
4.
3
1
Linking element
2
H-rail
3
Lower lock of linking element
Fig. 21
14
Disposal
Dispose of the packaging and the product at the end of its useful life through
environmentally friendly recycling in accordance with applicable specifications.
15
Technical data
General information
Characteristic
Specification/value
Assembly position
Vertical/horizontal
Ambient temperature
[°C]
–5 … +60 (–5 … +50)
1)
Storage temperature
[°C]
–20 … +70
Air humidity (non-condensing)
[%]
0 … 95
Max. permissible setup altitude above sea level
[m]
2000
Max. number of modules per CPX-E system,
including the bus module or controller
11
Address volume of the inputs/outputs
[byte]
64/64 (maximum)
Degree of protection in accordance with
EN 60529
IP20
Protection against electric shock (protection
against direct and indirect contact to
IEC 60204-1)
Through the use of PELV circuits
(protected extra-low voltage)
CE marking (see declaration of conformity)
è
www.festo.com
To EU EMC Directive
Explosion prevention and protection (IECEx/
ATEX)
è
Special documentation on ATEX
Certification certificate
RCM compliance mark
Contamination level
2
Vibration and shock resistance in accordance with EN 60068
2)
Vibration (part 2-6)
H-rail SG1
Shock (part 2 - 27)
H-rail SG1
Continuous shock (part 2-27)
H-rail SG1
1)
In case of horizontal mounting position
2)
Explanation of the severity level
è
Fig. 23 … Fig. 25
Fig. 22
Vibration load
Frequency range [Hz]
Acceleration [m/s
2
]
Deflection [mm]
SL1
SL2
SL1
SL2
SL1
SL2
2 … 8
2 … 8
–
–
±3.5
±3.5
8 … 27
8 … 27
10
10
–
–
27 … 58
27 … 60
–
–
±0.15
±0.35
58 … 160
60 … 160
20
50
–
–
160 … 200
160 … 200
10
10
–
–
Fig. 23
Shock load
Acceleration [m/s
2
]
Duration [ms]
Shocks per direction
SL1
SL2
SL1
SL2
SL1
SL2
±150
±300
11
11
5
5
Fig. 24
Continuous shock load
Acceleration [m/s
2
]
Duration [ms]
Shocks per direction
±150
6
1000
Fig. 25
Power supply
Characteristic
Specification/value
Operating voltage supply U
EL/SEN
Nominal operating voltage
[V DC]
24 ± 25 %
Trigger level, undervoltage identification
[V DC]
17.5
Max. current load of terminal strip
[A]
8
Mains buffering time
Module-dependent
1)
Load voltage supply U
OUT
Nominal operating voltage
[V DC]
24 ± 25 %
2)
Trigger level, undervoltage identification
Module-dependent
1)
Max. current load of terminal strip
[A]
8
1)
è
Documentation of the modules
2)
The indication of tolerance deviates in case of some modules.
Fig. 26
Connection data of the terminal strips
Key feature
Specification/value
4-pin
6-pin
Conductor cross-section
Massive
[mm
2
]
0.14 … 1.5
Flexible
[mm
2
]
0.14 … 2.5
0.14 … 1.5
Flexible with wire end sleeve
Without plastic sleeve
[mm
2
]
0.14 … 1.5
With plastic sleeve
[mm
2
]
0.14 … 1.5
0.14 … 1.0
Length of the wire end sleeve without plastic sleeve
1)
Conductor cross section 0.14 … 1.0 mm
2
[mm]
8 … 10
Conductor cross-section 1.5 mm
2
[mm]
8 … 10
10
Length of the wire end sleeve with plastic sleeve
2)
Conductor cross-section 0.14 … 0.34 mm
2
[mm]
8 … 10
Conductor cross-section 0.5 … 1.0 mm
2
[mm]
8 … 10
10
1)
in accordance with DIN 46228-1
2)
in accordance with DIN 46228-4
Fig. 27
