The WAGO-I/O-SYSTEM 750
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Mechanical Setup
WAGO-I/O-SYSTEM 750
DeviceNet
2.5.3 Assembly onto Carrier Rail
2.5.3.1 Carrier rail properties
All system components can be snapped directly onto a carrier rail in accor-
dance with the European standard EN 50022 (DIN 35).
Warning
WAGO supplies standardized carrier rails that are optimal for use with the
I/O system. If other carrier rails are used, then a technical inspection and ap-
proval of the rail by WAGO Kontakttechnik GmbH must take place.
Carrier rails have different mechanical and electrical properties. For the opti-
mal system setup on a carrier rail, certain marginal terms must be observed:
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The material must be non-corrosive.
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Most components have a contact to the carrier rail to ground electro-magnetic disturbances.
In order to avoid corrosion, this tin-plated carrier rail contact must not form a galvanic cell
with the material of the carrier rail which generates a differential voltage above 0.5 V (saline
solution of 0.3% at 20°C) .
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The carrier rail must optimally support the EMC measures integrated into the system and the
shielding of the bus module connections.
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A sufficiently stable carrier rail should be selected and, if necessary, several assembly points
(every 20 cm) should be used in order to prevent bending and twisting (torsion).
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The geometry of the carrier rail must not be altered in order to secure the safe hold of the
components. In particular, when shortening or mounting the carrier rail, it must not be
crushed or bent.
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The base of the components extends into the profile of the carrier rail. For carrier rails with a
height of 7.5 mm, assembly points (screws) are to be riveted under the node in the carrier rail
(slotted head captive screws or blind rivets).